C++ (Cpp) SpatialDataView::createLayer Examples

Example #1

File: ConvolutionFilterShell.cpp Project: Tom-VdE/opticks

SpatialDataView* ConvolutionFilterShell::displayResult()
{
   VERIFY(mInput.mpResult != NULL);
   if (Service<ApplicationServices>()->isBatch())
   {
      return NULL;
   }
   SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(
      Service<DesktopServices>()->createWindow(mInput.mpResult->getName(), SPATIAL_DATA_WINDOW));
   SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
   if (pView == NULL)
   {
      Service<DesktopServices>()->deleteWindow(pWindow);
      mProgress.report("Unable to create view.", 0, ERRORS, true);
      return NULL;
   }
   pView->setPrimaryRasterElement(mInput.mpResult);

   RasterLayer* pLayer = NULL;
   { // scope
      UndoLock lock(pView);
      pLayer = static_cast<RasterLayer*>(pView->createLayer(RASTER, mInput.mpResult));
   }
   if (pLayer == NULL)
   {
//#pragma message(__FILE__ "(" STRING(__LINE__) ") : warning : This would be cleaner with a WindowResource. If one " \
//                                              "becomes available, use it instead. (tclarke)")
      Service<DesktopServices>()->deleteWindow(pWindow);
      mProgress.report("Unable to create layer.", 0, ERRORS, true);
      return NULL;
   }
   return pView;
}

Example #2

File: NormalizeData.cpp Project: Siddharthk/coan

bool NormalizeData::displayResult()
{
   if (isBatch())
   {
      return true;
   }
   if (mInput.mpResult == NULL)
   {
      return false;
   }
   SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(
      Service<DesktopServices>()->createWindow(mInput.mpResult->getName(), SPATIAL_DATA_WINDOW));
   SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
   if (pView == NULL)
   {
      mProgress.report("Unable to create view.", 0, ERRORS, true);
      return false;
   }
   pView->setPrimaryRasterElement(mInput.mpResult);
   
   UndoLock lock(pView);
   RasterLayer* pLayer = static_cast<RasterLayer*>(pView->createLayer(RASTER, mInput.mpResult));
   if (pLayer == NULL)
   {
      mProgress.report("Unable to create view.", 0, ERRORS, true);
      return false;
   }

   return true;
}

Example #3

File: BandMath.cpp Project: Siddharthk/opticks

bool BandMath::createReturnGuiElement()
{
   bool bSuccess = false;

   if (mbInteractive || (mbDisplayResults && Service<ApplicationServices>()->isBatch() == false))
   {
      SpatialDataWindow* pWindow = NULL;
      if (mbAsLayerOnExistingView)
      {
         pWindow = static_cast<SpatialDataWindow*>(mpDesktop->getWindow(mpCube->getName(), SPATIAL_DATA_WINDOW));
      }
      else
      {
         pWindow = static_cast<SpatialDataWindow*>(mpDesktop->createWindow(mResultsName.c_str(), SPATIAL_DATA_WINDOW));
      }

      if (pWindow == NULL)
      {
         return false;
      }

      SpatialDataView* pView = pWindow->getSpatialDataView();
      VERIFYRV(pView != NULL, NULL);

      UndoLock lock(pView);

      if (!mbAsLayerOnExistingView)
      {
         pView->setPrimaryRasterElement(mpResultData);
      }

      LayerList* pLayerList = pView->getLayerList();
      if (pLayerList != NULL)
      {
         Layer* pLayer = pLayerList->getLayer(RASTER, mpResultData);
         if (pLayer == NULL)
         {
            if (pView->createLayer(RASTER, mpResultData) != NULL)
            {
               bSuccess = true;
            }
            if (!mbAsLayerOnExistingView)
            {
               Service<ModelServices> pModel;
               vector<DataElement*> elements = pModel->getElements(mpResultData, "GcpList");
               for_each(elements.begin(), elements.end(), 
                  boost::bind(&SpatialDataView::createLayer, pView, GCP_LAYER, _1));
            }
         }
      }
   }
   else // no GUI required, method has successfully noop'd
   {
      bSuccess = true;
   }
   return bSuccess;
}

Example #4

File: VideoImporter.cpp Project: Siddharthk/coan

SpatialDataView* VideoImporter::createView() const
{
   if ((isBatch()) || (mpRasterElement == NULL))
   {
      return NULL;
   }

   mProgress.report("Creating view...", 85, NORMAL);

   // Get the data set name
   std::string name = mpRasterElement->getName();
   if (name.empty())
   {
      mProgress.report("The data set name is invalid!  A view cannot be created.", 0, ERRORS, true);
      return NULL;
   }

   // Create the spatial data window
   SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(Service<DesktopServices>()->createWindow(name, SPATIAL_DATA_WINDOW));
   SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
   if (pView == NULL)
   {
      mProgress.report("Could not create the view window!", 0, ERRORS, true);
      return NULL;
   }

   // Set the spatial data in the view
   pView->setPrimaryRasterElement(mpRasterElement);

   // Block undo actions when creating the layers
   UndoLock lock(pView);

   // Add the cube layer
   RasterLayer* pLayer = static_cast<RasterLayer*>(pView->createLayer(RASTER, mpRasterElement));
   if (pLayer == NULL)
   {
      mProgress.report("Could not create the cube layer!", 0, ERRORS, true);
      return NULL;
   }
   pLayer->setStretchUnits(RED, RAW_VALUE);
   pLayer->setStretchUnits(GREEN, RAW_VALUE);
   pLayer->setStretchUnits(BLUE, RAW_VALUE);
   pLayer->setStretchValues(RED, 0, 255);
   pLayer->setStretchValues(GREEN, 0, 255);
   pLayer->setStretchValues(BLUE, 0, 255);
   if (pLayer->isGpuImageSupported())
   {
      pLayer->enableGpuImage(true);
   }
   return pView;
}

Example #5

File: SimpleViews.cpp Project: Siddharthk/opticks

 Layer* createLayer(View* pView, DataElement* pElement, const char* pType, const char* pName)
 {
    if (pView == NULL || pElement == NULL || pType == NULL)
    {
       setLastError(SIMPLE_BAD_PARAMS);
       return NULL;
    }
    SpatialDataView* pSdv = dynamic_cast<SpatialDataView*>(pView);
    if (pSdv == NULL)
    {
       setLastError(SIMPLE_WRONG_VIEW_TYPE);
       return NULL;
    }
    LayerType type(StringUtilities::fromXmlString<LayerType>(std::string(pType)));
    if (!type.isValid())
    {
       setLastError(SIMPLE_WRONG_TYPE);
       return NULL;
    }
    Layer* pLayer;
    if (pName == NULL)
    {
       pLayer = pSdv->createLayer(type, pElement);
    }
    else
    {
       pLayer = pSdv->createLayer(type, pElement, std::string(pName));
    }
    if (pLayer == NULL)
    {
       setLastError(SIMPLE_OTHER_FAILURE);
       return NULL;
    }
    setLastError(SIMPLE_NO_ERROR);
    return pLayer;
 }

Example #6

File: EdgeDetector.cpp Project: adakite/Opticks-SAR

bool EdgeDetector::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Edge Detector", "app", "37C57772-DD49-4532-8BC6-9CFB8587D0C9");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   EncodingType ResultType = INT1UBYTE;

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Edge_Detect_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   Service<DesktopServices> pDesktop;
   EdgeRatioThresholdDlg dlg(pDesktop->getMainWidget(), SMALL_WINDOW_THRESHOLD, MEDIAN_WINDOW_THRESHOLD, LARGE_WINDOW_THRESHOLD);
   int stat = dlg.exec();
   if (stat == QDialog::Accepted)
   {
      for (unsigned int row = 0; row < pDesc->getRowCount(); ++row)
      {
         if (pProgress != NULL)
         {
            pProgress->updateProgress("Edge detect ", row * 100 / pDesc->getRowCount(), NORMAL);
         }
         if (isAborted())
         {
            std::string msg = getName() + " has been aborted.";
            pStep->finalize(Message::Abort, msg);
            if (pProgress != NULL)
            {
               pProgress->updateProgress(msg, 0, ABORT);
            }
            return false;
         }
         if (!pDestAcc.isValid())
         {
            std::string msg = "Unable to access the cube data.";
            pStep->finalize(Message::Failure, msg);
            if (pProgress != NULL) 
            {
               pProgress->updateProgress(msg, 0, ERRORS);
            }
            return false;
         }
         for (unsigned int col = 0; col < pDesc->getColumnCount(); ++col)
         {
            switchOnEncoding(ResultType, EdgeDetectSAR, pDestAcc->getColumn(), pSrcAcc, row, col,
                             pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType(), 
			                 dlg.getSmallThreshold(), dlg.getMedianThreshold(), dlg.getLargeThreshold());
            pDestAcc->nextColumn();
         }

         pDestAcc->nextRow();
      }

      if (!isBatch())
      {
         //Service<DesktopServices> pDesktop;

         SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
                                                                      SPATIAL_DATA_WINDOW));

         SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
         if (pView == NULL)
         {
            std::string msg = "Unable to create view.";
            pStep->finalize(Message::Failure, msg);
            if (pProgress != NULL) 
            {
               pProgress->updateProgress(msg, 0, ERRORS);
            }
            return false;
         }

         pView->setPrimaryRasterElement(pResultCube.get());
         pView->createLayer(RASTER, pResultCube.get());
      }

      if (pProgress != NULL)
      {
         pProgress->updateProgress("Edge detect compete.", 100, NORMAL);
      }

      pOutArgList->setPlugInArgValue("Edge detect result", pResultCube.release());

      pStep->finalize();
   }
   return true;
}

Example #7

File: TextureSegmentation.cpp Project: adakite/Opticks-SAR

bool TextureSegmentation::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("SAR image segmentation", "app", "CC430C1A-9D8C-4bb5-9254-FCF7EECAFA3C");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   EncodingType ResultType = INT1UBYTE;


   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Segmentation_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   if (isAborted())
   {
       std::string msg = getName() + " has been aborted.";
       pStep->finalize(Message::Abort, msg);
       if (pProgress != NULL)
       {
           pProgress->updateProgress(msg, 0, ABORT);
       }
               
	   return false;        
   }

   if (NULL != pBuffer)
   {
	   free(pBuffer);
   }
   pBuffer = (float *)malloc(sizeof(float)*pDesc->getRowCount()*pDesc->getColumnCount());
  
   MakeSegmentation(pSrcAcc, pBuffer, pBuffer, pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType());

   //Output the value 
   unsigned int nCount = 0;
   for (unsigned int j = 0; j < pDesc->getColumnCount(); j++)
   {
       for (unsigned int i = 0; i < pDesc->getRowCount(); i++)		   
	   {		   
		   if (!pDestAcc.isValid())
           {       
			   std::string msg = "Unable to access the cube data.";        
			   pStep->finalize(Message::Failure, msg);
                       
			   if (pProgress != NULL)                      
			   {         
				   pProgress->updateProgress(msg, 0, ERRORS);       
			   }                     
			   return false;              
		   }
			   
		   pDestAcc->toPixel(i, j);		   
		   switchOnEncoding(ResultType, restoreSegmentationValue, pDestAcc->getColumn(), (pBuffer+nCount));
		   nCount++;
	   }
   }

   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Image segmentation is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Image segmentation result", pResultCube.release());

   pStep->finalize();
   return true;
}

Example #8

File: adaptive_meadian.cpp Project: vijeshm/Opticks-Photography-Addons

bool adaptive_median::execute(PlugInArgList * pInArgList,
							  PlugInArgList * pOutArgList)
{
	StepResource pStep("adap_median", "noise",
					   "5EA0CC75-9E0B-4c3d-BA23-6DB7157BBD55");
	if (pInArgList == NULL || pOutArgList == NULL)
	{
		return false;
	}

	std::string msg = "Noise Reduction by Adaptive Median Filter ";
	Progress *pProgress =
		pInArgList->getPlugInArgValue < Progress > (Executable::ProgressArg());
	RasterElement *pCube =
		pInArgList->getPlugInArgValue < RasterElement >
		(Executable::DataElementArg());

	if (pCube == NULL)
	{
		std::string msg = "A raster cube must be specified.";
		pStep->finalize(Message::Failure, msg);
		if (pProgress != NULL)
		{
			pProgress->updateProgress(msg, 0, ERRORS);
		}
		return false;
	}

	RasterDataDescriptor *pDesc =
		static_cast < RasterDataDescriptor * >(pCube->getDataDescriptor());
	VERIFY(pDesc != NULL);
	if (pDesc->getDataType() == INT4SCOMPLEX
		|| pDesc->getDataType() == FLT8COMPLEX)
	{
		std::string msg =
			"Noise Reduction cannot be performed on complex types.";
		pStep->finalize(Message::Failure, msg);
		if (pProgress != NULL)
		{
			pProgress->updateProgress(msg, 0, ERRORS);
		}
		return false;
	}

	FactoryResource < DataRequest > pRequest;
	pRequest->setInterleaveFormat(BSQ);
	DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

	RasterElement *dRas =
		RasterUtilities::createRasterElement(pCube->getName() +
											 "Noise_reduction_Median_filter",
											 pDesc->getRowCount(),
											 pDesc->getColumnCount(), 3,
											 pDesc->getDataType(), BSQ);

	pProgress->updateProgress(msg, 50, NORMAL);

	copyImage4(pCube, dRas, 0, pProgress);
	pProgress->updateProgress(msg + "RED complete", 60, NORMAL);

	copyImage4(pCube, dRas, 1, pProgress);
	pProgress->updateProgress(msg + "GREEN complete", 70, NORMAL);

	copyImage4(pCube, dRas, 2, pProgress);
	pProgress->updateProgress(msg + "BLUE complete", 80, NORMAL);

	// new model resource
	RasterDataDescriptor *rDesc =
		dynamic_cast < RasterDataDescriptor * >(dRas->getDataDescriptor());
	rDesc->setDisplayMode(RGB_MODE);	// enable color mode
	rDesc->setDisplayBand(RED, rDesc->getActiveBand(0));
	rDesc->setDisplayBand(GREEN, rDesc->getActiveBand(1));
	rDesc->setDisplayBand(BLUE, rDesc->getActiveBand(2));

	ModelResource < RasterElement > pResultCube(dRas);

	if (pResultCube.get() == NULL)
	{
		std::string msg = "A raster cube could not be created.";
		pStep->finalize(Message::Failure, msg);
		if (pProgress != NULL)
		{
			pProgress->updateProgress(msg, 0, ERRORS);
		}
		return false;
	}

	pProgress->updateProgress("Final", 100, NORMAL);

	pProgress->updateProgress(msg, 100, NORMAL);

	if (!isBatch())
	{
		Service < DesktopServices > pDesktop;

		SpatialDataWindow *pWindow =
			static_cast <
			SpatialDataWindow *
			>(pDesktop->
			  createWindow(pResultCube->getName(), SPATIAL_DATA_WINDOW));

		SpatialDataView *pView =
			(pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
		if (pView == NULL)
		{
			std::string msg = "Unable to create view.";
			pStep->finalize(Message::Failure, msg);
			if (pProgress != NULL)
			{
				pProgress->updateProgress(msg, 0, ERRORS);
			}
			return false;
		}

		pView->setPrimaryRasterElement(pResultCube.get());
		pView->createLayer(RASTER, pResultCube.get());
	}

	if (pProgress != NULL)
	{
		pProgress->updateProgress("adaptive_median is compete.", 100, NORMAL);
	}

	pOutArgList->setPlugInArgValue("adaptive_median_Result", pResultCube.release());	// saving 
																						// data

	pStep->finalize();
	return true;
}

Example #9

File: DataMergeGui.cpp Project: yuguess/GSoC

bool DataMergeGui::mergeData() 
{
//	Service<ModelServices> pModel;
	StepResource pStep("Data Merge Begin", "app", "5E4BCD48-E662-408b-93AF-F9127CE56C66");	
	if (mergeList->count() == 0)
	{
		QMessageBox::critical(NULL, "Spectral Data Merge", "No RasterElement to merge", "OK");
		pStep->finalize(Message::Failure, "No RasterElement to merge");
		return false;
	}

//	pProgress = new Progress(this, "Progress Reporter");
//	std::vector<DataElement*> cubes = pModel->getElements("RasterElement");
/*	if (mergeElementList.size() == 0)
	{
		QMessageBox::critical(NULL, "Spectral Data Merge", "No RasterElement input found!", "OK");
		pStep->finalize(Message::Failure, "No RasterElement input found!");
		return false;
	} */
	//QListWidgetItem *tmpItem = mergeList->item(i0);
	//QString tmpItemText = tmpItem->text();
	RasterElement* pInitData = extractRasterElement(mergeList->item(0)->text());

//	vector<RasterElement*>::iterator initIter = mergeElementList.begin();
//	RasterElement* pInitData = model_cast<RasterElement*>(*initIter);

	if (pInitData == NULL)
	{
		pStep->finalize(Message::Failure, "Cube Data error!");
		QMessageBox::critical(this, "Error", "pInitData Error");
		return false;
	}

	RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pInitData->getDataDescriptor());
	EncodingType type = pDesc->getDataType();
	int rowCount = pDesc->getRowCount();
	int colCount = pDesc->getColumnCount();
	int bandCount = mergeList->count();

	RasterElement* pDesRaster = RasterUtilities::createRasterElement("DataMergeCube", rowCount,
      colCount, bandCount, type, BIP, true, NULL);
	
	if (pDesRaster == NULL)
	{
		QMessageBox::critical(NULL, "Spectral Data Merge", "Create RasterElement failed, Please close the previous merge result!", "OK");
		pStep->finalize(Message::Failure, "No RasterElement input found!");
		return false;
	}

	FactoryResource<DataRequest> pRequest;
	pRequest->setInterleaveFormat(BIP);
	DataAccessor pDesAcc = pDesRaster->getDataAccessor(pRequest.release());
	
	if (!pDesAcc.isValid())
	{
		QMessageBox::critical(NULL, "Spectral Data Merge", "pDesRaster Data Accessor Error!", "OK");
		pStep->finalize(Message::Failure, "pDesRaster Data Accessor Error!");
		return false;
	} 

	if (pProgress == NULL) 
	{
		QMessageBox::critical(NULL, "Spectral Data Merge", "pProgress Initialize Error!", "OK");
		pStep->finalize(Message::Failure, "pProgress Error!");
		return false;
	}
//	progressDialog = new QProgressDialog();
//	progressDialog->setRange(0, rowCount);
	
	//int index = 0;
	for (int i = 0; i < mergeList->count(); i++)
	{
		QListWidgetItem *tmpItem = mergeList->item(i);
		QString tmpItemText = tmpItem->text();
		RasterElement* pData = extractRasterElement(tmpItemText);
		int band = extractMergeBand(tmpItemText);

		if (pData != NULL)
		{
			RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pData->getDataDescriptor());
			if (rowCount != pDesc->getRowCount())
			{
				QMessageBox::critical(NULL, "Spectral Data Merge", "Merge Data Format Error!", "OK");
				pStep->finalize(Message::Failure, "Merge Data Row Format Error!");
				return false;			
			}
					
			if (colCount != pDesc->getColumnCount())
			{
				QMessageBox::critical(NULL, "Spectral Data Merge", "Merge Data Format Error!", "OK");
				pStep->finalize(Message::Failure, "Merge Data Column Format Error!");
				return false;			
			}
	//		QMessageBox::about(this, "Test", "Here2");
			FactoryResource<DataRequest> pRequest;
			pRequest->setInterleaveFormat(BIP);
		//	pRequest->setWritable(true);
			DataAccessor pSrcAcc = pData->getDataAccessor(pRequest.release());	
			switchOnEncoding(pDesc->getDataType(), mergeElement, NULL, rowCount, 
				colCount, pSrcAcc, pDesAcc, i, band, pProgress, mergeList->count());
	//		QMessageBox::about(this, "Test", "Here5");
		}
		else {
			QMessageBox::critical(this, "Error", "pData is NULL");
			return false;
		}

	//	mergeElementList.push_back(filenameMap[tmpItemText.toStdString()]);
	}

	Service<DesktopServices> pDesktop;
	SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow("DataMergeResult",
	   SPATIAL_DATA_WINDOW));

    SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
    if (pView == NULL)
    {
		pStep->finalize(Message::Failure, "SpatialDataView error!");
	    return false;
    }

	pView->setPrimaryRasterElement(pDesRaster);
    pView->createLayer(RASTER, pDesRaster);
	

	if (pDesc != NULL)
    {
		const RasterFileDescriptor* pFileDescriptor = dynamic_cast<const RasterFileDescriptor*>(pDesc->getFileDescriptor());
        if (pFileDescriptor != NULL)
        {
			Service<ModelServices> pModel;
            if (pModel.get() != NULL)
            {
				list<GcpPoint> gcps;             
                gcps = pFileDescriptor->getGcps();           
                if (gcps.empty() == true)
                {
					if (pInitData->isGeoreferenced())
                    {
						GcpPoint gcp;

                        // Lower left
                        gcp.mPixel.mX = 0.0;
                        gcp.mPixel.mY = 0.0;
                        gcp.mCoordinate = pInitData->convertPixelToGeocoord(gcp.mPixel);
                        gcps.push_back(gcp);

                        // Lower right
                        gcp.mPixel.mX = colCount - 1;
                        gcp.mPixel.mY = 0.0;
                        gcp.mCoordinate = pInitData->convertPixelToGeocoord(gcp.mPixel);
                        gcps.push_back(gcp);

                        // Upper left
                        gcp.mPixel.mX = 0.0;
                        gcp.mPixel.mY = rowCount - 1;
                        gcp.mCoordinate = pInitData->convertPixelToGeocoord(gcp.mPixel);
                        gcps.push_back(gcp);

                        // Upper right
                        gcp.mPixel.mX = colCount - 1;
                        gcp.mPixel.mY = rowCount - 1;
                        gcp.mCoordinate = pInitData->convertPixelToGeocoord(gcp.mPixel);
                        gcps.push_back(gcp);

                        // Center
                        gcp.mPixel.mX = colCount / 2.0;
                        gcp.mPixel.mY = rowCount / 2.0;
                        gcp.mCoordinate = pInitData->convertPixelToGeocoord(gcp.mPixel);
                        gcps.push_back(gcp);
                     }
                  }

                  if (gcps.empty() == false)
                  {
                     DataDescriptor* pGcpDescriptor = pModel->createDataDescriptor("Corner Coordinates",
                        "GcpList", pDesRaster);
                     if (pGcpDescriptor != NULL)
                     {
                        GcpList* pGcpList = static_cast<GcpList*>(pModel->createElement(pGcpDescriptor));
                        if (pGcpList != NULL)
                        {
                           // Add the GCPs to the GCP list
                           pGcpList->addPoints(gcps);

                           // Create the GCP list layer
                           pView->createLayer(GCP_LAYER, pGcpList);
                        }
                     }
                  }
               }
		}
	}

	return true;
}

Example #10

File: kdistribution.cpp Project: pMav5/Ship-Detection-Applet-for-Opticks

bool KDISTRIBUTION::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
	
   StepResource pStep("KDISTRIBUTION", "app10", "F298D57C-D816-42F0-AE27-43DAA02C0544");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());

   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL)
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }

      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   FactoryResource<DataRequest> pRequest;
   FactoryResource<DataRequest> pRequest2;

   

   pRequest->setInterleaveFormat(BSQ);
   pRequest2->setInterleaveFormat(BSQ);
   DataAccessor pAcc = pCube->getDataAccessor(pRequest.release());
   DataAccessor pAcc2 = pCube->getDataAccessor(pRequest2.release());


   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
   "Result", pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType()));

   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());
   const RasterDataDescriptor* pDescriptor = dynamic_cast<const RasterDataDescriptor*>(pCube->getDataDescriptor());


  
   int tester_count = 0;
   int eastCol = 0;
   int northRow = 0;
   int westCol = 0;
   int southRow = 0;
   double zstatistic = 0;
   double total = 0.0;
   double total_sum = 0.0;
   double mean = 0.0;
   double std = 0.0;
   double a=0;
   int rowSize=pDesc->getRowCount();
   int colSize=pDesc->getColumnCount();
   int prevCol = 0;
   int prevRow = 0;
   int nextCol = 0;
   int nextRow = 0;
   double long PFA = 0.0;
   int DEPTH1 = 10;
   int DEPTH2 = 10;
   int DEPTH3 = 1;
   int DEPTH4 = 1;
   int count=0;
   int zero=0;
   double long threshold = 100000.0;


   double look_table1[24][6];

   for(int i=0; i<24; i++)
   {
	   for(int j=0; j<3; j++)
	   {
			   look_table1[i][j]=0.0;
			   	   
	   }
   }
      


   QStringList Names("0.0000001");
   QString value = QInputDialog::getItem(Service<DesktopServices>()->getMainWidget(),
            "Input a PFA value", "Input a PFA value (0.0000001 or 0.00000001)", Names);
   
   std::string strAoi = value.toStdString();
   std::istringstream stm;
   stm.str(strAoi);
   //stm >> PFA;
   PFA=::atof(strAoi.c_str());

   

   if (PFA==0.0000001)
   {
	    

   look_table1[0][0]=1.0;
   look_table1[0][1]=5.0;
   look_table1[0][2]=32.3372530103729330;
   look_table1[1][0]=1.0;
   look_table1[1][1]=10.0;
   look_table1[1][2]=25.0723580041031010;
   look_table1[2][0]=1.0;
   look_table1[2][1]=15.0;
   look_table1[2][2]=22.3991160013551250;
   look_table1[3][0]=1.0;
   look_table1[3][1]=20.0;
   look_table1[3][2]=20.9821949998985920;
   look_table1[4][1]=1.0;
   look_table1[4][2]=40.0;
   look_table1[5][3]=18.7055519975583020;
   look_table1[5][1]=1.0;
   look_table1[5][2]=90.0;
   look_table1[5][3]=18.7055519975583020;

   look_table1[6][0]=2.0;
   look_table1[6][1]=5.0;
   look_table1[6][2]=20.2619339991581950;
   look_table1[7][0]=2.0;
   look_table1[7][1]=10.0;
   look_table1[7][2]=15.4860609951617470;
   look_table1[8][0]=2.0;
   look_table1[8][1]=15.0;
   look_table1[8][2]=13.7276789964777210;
   look_table1[9][0]=2.0;
   look_table1[9][1]=20.0;
   look_table1[9][2]=12.7942589971762930;
   look_table1[10][0]=2.0;
   look_table1[10][1]=40.0;
   look_table1[10][2]=11.2895769983023970;
   look_table1[11][0]=2.0;
   look_table1[11][1]=90.0;
   look_table1[11][2]=10.3695259989909640;

   look_table1[12][0]=3.0;
   look_table1[12][1]=5.0;
   look_table1[12][2]=15.9102209948443050;
   look_table1[13][0]=3.0;
   look_table1[13][1]=10.0;
   look_table1[13][2]=12.0443629977375150;
   look_table1[14][0]=3.0;
   look_table1[14][1]=15.0;
   look_table1[14][2]=10.6203179988032710;
   look_table1[15][0]=3.0;
   look_table1[15][1]=20.0;
   look_table1[15][2]=9.8635499993696367;
   look_table1[16][0]=3.0;
   look_table1[16][1]=40.0;
   look_table1[16][2]=8.6407550002847771;
   look_table1[17][0]=3.0;
   look_table1[17][1]=90.0;
   look_table1[17][2]=7.8893780007488568;

   look_table1[18][0]=4.0;
   look_table1[18][1]=5.0;
   look_table1[18][2]=13.6166519965608130;
   look_table1[19][0]=4.0;
   look_table1[19][1]=10.0;
   look_table1[19][2]=10.2336029990926890;
   look_table1[20][0]=4.0;
   look_table1[20][1]=15.0;
   look_table1[20][2]=10.6203179988032710;
   look_table1[21][0]=4.0;
   look_table1[21][1]=20.0;
   look_table1[21][2]=8.9868610000257512;
   look_table1[22][0]=4.0;
   look_table1[22][1]=40.0;
   look_table1[22][2]=7.2502150006595159;
   look_table1[23][0]=4.0;
   look_table1[23][1]=90.0;
   look_table1[23][2]=6.5879140005669408;
   }
   
   
   if (PFA==0.00000001)
   {
   look_table1[0][0]=1.0;
   look_table1[0][1]=5.0;
   look_table1[0][2]=20.0000019988889410;
   look_table1[1][0]=1.0;
   look_table1[1][1]=10.0;
   look_table1[1][2]=20.0000019988889410;
   look_table1[2][0]=1.0;
   look_table1[2][1]=15.0;
   look_table1[2][2]=20.0000019988889410;
   look_table1[3][0]=1.0;
   look_table1[3][1]=20.0;
   look_table1[3][2]=20.0000019988889410;
   look_table1[4][1]=1.0;
   look_table1[4][2]=40.0;
   look_table1[5][3]=20.0000019988889410;
   look_table1[5][1]=1.0;
   look_table1[5][2]=90.0;
   look_table1[5][3]=20.0000019988889410;

   look_table1[6][0]=2.0;
   look_table1[6][1]=5.0;
   look_table1[6][2]=18.3243529971664460;
   look_table1[7][0]=2.0;
   look_table1[7][1]=10.0;
   look_table1[7][2]=18.3243529971664460;
   look_table1[8][0]=2.0;
   look_table1[8][1]=15.0;
   look_table1[8][2]=16.0869139948664570;
   look_table1[9][0]=2.0;
   look_table1[9][1]=20.0;
   look_table1[9][2]=14.8998299956004820;
   look_table1[10][0]=2.0;
   look_table1[10][1]=40.0;
   look_table1[10][2]=12.9846719970337880;
   look_table1[11][0]=2.0;
   look_table1[11][1]=90.0;
   look_table1[11][2]=11.8094659979133120;

   look_table1[12][0]=3.0;
   look_table1[12][1]=5.0;
   look_table1[12][2]=18.9816659978421360;
   look_table1[13][0]=3.0;
   look_table1[13][1]=10.0;
   look_table1[13][2]=14.1167729961865230;
   look_table1[14][0]=3.0;
   look_table1[14][1]=15.0;
   look_table1[14][2]=12.3304539975234050;
   look_table1[15][0]=3.0;
   look_table1[15][1]=20.0;
   look_table1[15][2]=11.3819769982332450;
   look_table1[16][0]=3.0;
   look_table1[16][1]=40.0;
   look_table1[16][2]=9.8488249993806569;
   look_table1[17][0]=3.0;
   look_table1[17][1]=90.0;
   look_table1[17][2]=8.9039850000877756;

   look_table1[18][0]=4.0;
   look_table1[18][1]=5.0;
   look_table1[18][2]=16.1272319949079020;
   look_table1[19][0]=4.0;
   look_table1[19][1]=10.0;
   look_table1[19][2]=11.9117899978367330;
   look_table1[20][0]=4.0;
   look_table1[20][1]=15.0;
   look_table1[20][2]=10.3636999989953240;
   look_table1[21][0]=4.0;
   look_table1[21][1]=20.0;
   look_table1[21][2]=9.5411879996108926;
   look_table1[22][0]=4.0;
   look_table1[22][1]=40.0;
   look_table1[22][2]=8.2095870006074634;
   look_table1[23][0]=4.0;
   look_table1[23][1]=90.0;
   look_table1[23][2]=7.3860650006785047;
   }
   

   QStringList Names1("10");
   QString value1 = QInputDialog::getItem(Service<DesktopServices>()->getMainWidget(),
            "Input the size of the window width", "Input the size of the window width in terms of the number of pixels (eg. 10)", Names1);
   
   std::string strAoi1 = value1.toStdString();
   std::istringstream stm1;
   stm1.str(strAoi1);
   //stm1 >> DEPTH1;
   DEPTH1=::atof(strAoi1.c_str());

   QStringList Names2("10");
   QString value2 = QInputDialog::getItem(Service<DesktopServices>()->getMainWidget(),
            "Input the size of the window height", "Input the size of the window height in terms of the number of pixels (eg. 10)", Names2);
   
   std::string strAoi2 = value2.toStdString();
   std::istringstream stm2;
   stm2.str(strAoi2);
   //stm2 >> DEPTH2;
   DEPTH2=::atof(strAoi2.c_str());

   QStringList Names3("1");
   QString value3 = QInputDialog::getItem(Service<DesktopServices>()->getMainWidget(),
            "Input the size of the gaurd width", "Input the size of the guard width in terms of the number of pixels (eg. 1)", Names3);
   
   std::string strAoi3 = value3.toStdString();
   std::istringstream stm3;
   stm3.str(strAoi3);
   //stm3 >> DEPTH3;
   DEPTH3=::atof(strAoi3.c_str());

   QStringList Names4("1");
   QString value4 = QInputDialog::getItem(Service<DesktopServices>()->getMainWidget(),
            "Input the size of the guard height", "Input the size of the guard height in terms of the number of pixels (eg. 1)", Names4);
   
   std::string strAoi4 = value4.toStdString();
   std::istringstream stm4;
   stm4.str(strAoi4);
   stm4 >> DEPTH4;
   DEPTH4=::atof(strAoi4.c_str());

   for (int row = 0; row < rowSize; ++row)
   {

      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }

         return false;
      }
      if (!pAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }

         return false;
      }

      if (pProgress != NULL)
      {
         pProgress->updateProgress("Calculating statistics", row * 100 / pDesc->getRowCount(), NORMAL);
      }
	  		
	  

      for (int col = 0; col < colSize; ++col)
      {
		  //p[col]=pAcc2->getColumnAsInteger();
		  
		  westCol=max(col-DEPTH1,zero);
		  northRow=max(row-DEPTH2,zero);
		  eastCol=min(colSize-1,col+DEPTH1);
		  southRow=min(rowSize-1,row+DEPTH2);
		  prevCol=max(col-DEPTH3,zero);
		  prevRow=max(row-DEPTH4,zero);
		  nextCol=min(col+DEPTH3,colSize-1);
		  nextRow=min(row+DEPTH4,rowSize-1);

			pAcc2->toPixel(northRow,westCol);
			
			for(int row1=northRow; row1 < southRow+1; ++row1)
			{
								
				for (int col1=westCol; col1 < eastCol+1; ++col1)
				{

					if((row1>=prevRow && row1<=nextRow) && (col1>=prevCol && col1<=nextCol))
					{
						continue;
					}

					else
					{	   
					 updateStatistics3(pAcc2->getColumnAsDouble(), total, total_sum, count);
					}


					pAcc2->nextColumn();

				}

				pAcc2->nextRow();
			}

			mean = total / count;
			std = sqrt(total_sum / count - mean * mean);
			int ELVI = (mean/std)*(mean/std);
			int v = (ELVI+1)/((ELVI*mean/(std*std))-1);

			pAcc2->toPixel(row,col);
			pDestAcc->toPixel(row,col);
			zstatistic = (pAcc2->getColumnAsDouble()-mean)/std;

				 if(v<=7 && v>=0)
				 { v=5;
				 }

				 if(v<=12 && v>7)
				 {
					 v=10;
				 }

				 if(v<=17 && v>12)
				 {
					 v=15;
				 }

				 if(v<=30 && v>17)
				 {
					 v=20;
				 }

				 if(v<=65 && v>30)
				 {
					 v=40;
				 }

				 if(v<=90 && v>65)
				 {
					 v=90;
				 }


			for(int i=0; i<24; i++)
			{
				if((look_table1[i][0]=ELVI) && (look_table1[i][1]==v))
				{
					threshold=look_table1[i][2];
				}
			}
					
			

			if(zstatistic>threshold)
			{

				switchOnEncoding(pDesc->getDataType(), conversion1, pDestAcc->getColumn(), 1000.0);
			}

			else
			{
				switchOnEncoding(pDesc->getDataType(), conversion1, pDestAcc->getColumn(), 0.0);
			}

			total = 0.0;
			total_sum=0.0;
            threshold=100000.0;
            mean = 0.0;
            std = 0.0;
			count=0;



			pAcc->nextColumn();
	  }

      pAcc->nextRow();

   }



      // Create a GCP layer

/*
      SpatialDataWindow* pWindow = dynamic_cast<SpatialDataWindow*>(Service<DesktopServices>()->createWindow(pResultCube.get()->getName(), SPATIAL_DATA_WINDOW));

   SpatialDataView* pView = pWindow->getSpatialDataView();
   */


      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());


	  // Create the GCP list
	     if (pCube->isGeoreferenced() == true)
		 {


   
      const vector<DimensionDescriptor>& rows = pDescriptor->getRows();
      const vector<DimensionDescriptor>& columns = pDescriptor->getColumns();
      if ((rows.empty() == false) && (columns.empty() == false))
      {
         // Get the geocoordinates at the chip corners
		  /*
         VERIFYNRV(rows.front().isActiveNumberValid() == true);
         VERIFYNRV(rows.back().isActiveNumberValid() == true);
         VERIFYNRV(columns.front().isActiveNumberValid() == true);
         VERIFYNRV(columns.back().isActiveNumberValid() == true);
		 */

         unsigned int startRow = rows.front().getActiveNumber();
         unsigned int endRow = rows.back().getActiveNumber();
         unsigned int startCol = columns.front().getActiveNumber();
         unsigned int endCol = columns.back().getActiveNumber();

         GcpPoint ulPoint;
         ulPoint.mPixel = LocationType(startCol, startRow);
         ulPoint.mCoordinate = pCube->convertPixelToGeocoord(ulPoint.mPixel);

         GcpPoint urPoint;
         urPoint.mPixel = LocationType(endCol, startRow);
         urPoint.mCoordinate = pCube->convertPixelToGeocoord(urPoint.mPixel);

         GcpPoint llPoint;
         llPoint.mPixel = LocationType(startCol, endRow);
         llPoint.mCoordinate = pCube->convertPixelToGeocoord(llPoint.mPixel);

         GcpPoint lrPoint;
         lrPoint.mPixel = LocationType(endCol, endRow);
         lrPoint.mCoordinate = pCube->convertPixelToGeocoord(lrPoint.mPixel);

         GcpPoint centerPoint;
         centerPoint.mPixel = LocationType((startCol + endCol) / 2, (startRow + endRow) / 2);
         centerPoint.mCoordinate = pCube->convertPixelToGeocoord(centerPoint.mPixel);

		 /*
         // Reset the coordinates to be in active numbers relative to the chip
         const vector<DimensionDescriptor>& chipRows = pDescriptor->getRows();
         const vector<DimensionDescriptor>& chipColumns = pDescriptor->getColumns();
		 
         VERIFYNRV(chipRows.front().isActiveNumberValid() == true);
         VERIFYNRV(chipRows.back().isActiveNumberValid() == true);
         VERIFYNRV(chipColumns.front().isActiveNumberValid() == true);
         VERIFYNRV(chipColumns.back().isActiveNumberValid() == true);
		 
         unsigned int chipStartRow = chipRows.front().getActiveNumber();
         unsigned int chipEndRow = chipRows.back().getActiveNumber();
         unsigned int chipStartCol = chipColumns.front().getActiveNumber();
         unsigned int chipEndCol = chipColumns.back().getActiveNumber();
         ulPoint.mPixel = LocationType(chipStartCol, chipStartRow);
         urPoint.mPixel = LocationType(chipEndCol, chipStartRow);
         llPoint.mPixel = LocationType(chipStartCol, chipEndRow);
         lrPoint.mPixel = LocationType(chipEndCol, chipEndRow);
         centerPoint.mPixel = LocationType((chipStartCol + chipEndCol) / 2, (chipStartRow + chipEndRow) / 2);
		 */
         
         Service<ModelServices> pModel;

         GcpList* pGcpList = static_cast<GcpList*>(pModel->createElement("Corner Coordinates",
            TypeConverter::toString<GcpList>(), pResultCube.get()));
         if (pGcpList != NULL)
         {
            list<GcpPoint> gcps;
            gcps.push_back(ulPoint);
            gcps.push_back(urPoint);
            gcps.push_back(llPoint);
            gcps.push_back(lrPoint);
            gcps.push_back(centerPoint);

            pGcpList->addPoints(gcps);

			pView->createLayer(GCP_LAYER, pGcpList);
		 }
	  }
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("CFAR is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Result", pResultCube.release());

   pStep->finalize();
   return true;
   
}

Example #11

File: LayerImporter.cpp Project: Tom-VdE/opticks

bool LayerImporter::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   Layer* pLayer = NULL;
   Progress* pProgress = NULL;
   DataElement* pElement = NULL;
   SpatialDataView* pView = NULL;
   StepResource pStep("Import layer", "app", "DF24688A-6B34-4244-98FF-5FFE2063AC05");

   // get input arguments and log some useful info about them
   { // scope the MessageResource
      MessageResource pMsg("Input arguments", "app", "C0A532DE-0E19-44D3-837C-16ABD267B2C1");

      pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
      pMsg->addBooleanProperty("Progress Present", (pProgress != NULL));

      pElement = pInArgList->getPlugInArgValue<DataElement>(Importer::ImportElementArg());
      if (pElement == NULL)
      {
         if (pProgress != NULL)
         {
            pProgress->updateProgress("No data element", 100, ERRORS);
         }
         pStep->finalize(Message::Failure, "No data element");
         return false;
      }
      pMsg->addProperty("Element name", pElement->getName());
      pView = pInArgList->getPlugInArgValue<SpatialDataView>(Executable::ViewArg());
      if (pView != NULL)
      {
         pMsg->addProperty("View name", pView->getName());
      }
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress((string("Read and parse file ") + pElement->getFilename()),
         20, NORMAL);
   }

   // parse the xml
   XmlReader xml(Service<MessageLogMgr>()->getLog());

   XERCES_CPP_NAMESPACE_QUALIFIER DOMDocument* pDomDocument = xml.parse(pElement->getFilename());
   if (pDomDocument == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Unable to parse the file", 100, ERRORS);
      }
      pStep->finalize(Message::Failure, "Unable to parse the file");
      return false;
   }

   DOMElement* pRootElement = pDomDocument->getDocumentElement();
   VERIFY(pRootElement != NULL);

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Create the layer", 40, NORMAL);
   }

   string name(A(pRootElement->getAttribute(X("name"))));
   string type(A(pRootElement->getAttribute(X("type"))));
   unsigned int formatVersion = atoi(A(pRootElement->getAttribute(X("version"))));

   { // scope the MessageResource
      MessageResource pMsg("Layer information", "app", "AA358F7A-107E-456E-8D11-36DDBE5B1645");
      pMsg->addProperty("name", name);
      pMsg->addProperty("type", type);
      pMsg->addProperty("format version", formatVersion);
   }


   // If user requested pixel coordinates be used.
   bool usePixelCoords = false;
   DataDescriptor* pDesc = pElement->getDataDescriptor();
   VERIFY( pDesc );
   pDesc->getMetadata()->getAttributeByPath( "Layer/Import Options/Use Pixel Coordinates" ).getValue( usePixelCoords );
   if (usePixelCoords)
   {
      // Remove geoVertices and geoBox elements.
      removeGeoNodes(pRootElement);
   }

   if (pView == NULL)
   {
      //no view provided, so find current view
      SpatialDataWindow* pWindow = dynamic_cast<SpatialDataWindow*>(mpDesktop->getCurrentWorkspaceWindow());
      if (pWindow != NULL)
      {
         pView = pWindow->getSpatialDataView();
      }
   }

   if (pView == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Could not access the view to create the layer.", 100, ERRORS);
      }

      pStep->finalize(Message::Failure, "Could not access the view to create the layer.");
      return false;
   }

   bool error = false;
   LayerType layerType = StringUtilities::fromXmlString<LayerType>(type, &error);
   if (error == true)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("The layer type is invalid.", 100, ERRORS);
      }

      pStep->finalize(Message::Failure, "The layer type is invalid.");
      return false;
   }

   LayerList* pLayerList = pView->getLayerList();
   if (pLayerList != NULL)
   {
      RasterElement* pNewParentElement = pLayerList->getPrimaryRasterElement();
      if (pNewParentElement != NULL)
      {
         Service<ModelServices> pModel;
         if (pModel->setElementParent(pElement, pNewParentElement) == false)
         {
            pProgress->updateProgress("The layer already exists.", 100, ERRORS);
            pStep->finalize(Message::Failure, "The layer already exists.");
            return false;
         }
      }
   }

   UndoGroup group(pView, "Import " + StringUtilities::toDisplayString(layerType) + " Layer");

   pLayer = pView->createLayer(layerType, pElement);
   if (pLayer == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Unable to create the layer", 100, ERRORS);
      }
      pStep->finalize(Message::Failure, "Unable to create the layer");
      return false;
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Build the layer", 60, NORMAL);
   }

   // deserialize the layer
   try
   {
      if (pLayer->fromXml(pRootElement, formatVersion) == false)
      {
         pProgress->updateProgress("Problem with layer file.", 100, ERRORS);
         pStep->finalize(Message::Failure, "Problem with layer file.");
         return false;
      }
   }
   catch (XmlReader::DomParseException&)
   {
      return false;
   }

   pStep->finalize(Message::Success);
   if (pProgress != NULL)
   {
      pProgress->updateProgress("Finished loading the layer", 100, NORMAL);
   }

   // Add the layer to the view
   pView->addLayer(pLayer);
   pView->setActiveLayer(pLayer);
   pView->setMouseMode("LayerMode");

   if (pOutArgList != NULL)
   {
      // set the output arguments
      pOutArgList->setPlugInArgValue("Layer", pLayer);
   }

   return true;
}

Example #12

File: Orthorectification.cpp Project: GSoC-2012-Nascetti/SAR_PlugIn

bool Orthorectification::process(int type, RasterElement *pDSM, GRID DSMGrid, double Geoid_Offset, int DSM_resampling)
{
	StepResource pStep("Orthorectification Process", "app", "B4D426EC-E06D-11E1-83C8-42E56088709B");
	pStep->addStep("Start","app", "B4D426EC-E06D-11E1-83C8-42E56088709B");
	boxsize=0;

	res_type = type;

	if (res_type == 0) 
	{
		boxsize=0;	
	}
	else if (res_type == 1)
	{
		boxsize=1;		
	}
	else if (res_type == 2)
	{
		boxsize=2;		
	}
	else if (res_type == 3)
	{
		boxsize=3;	
	}

    ProgressResource pResource("ProgressBar");

	Progress *pProgress=pResource.get(); 

	pProgress->setSettingAutoClose(false);

	RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(Image->getDataDescriptor());
    
    FactoryResource<DataRequest> pRequest;
    DataAccessor pSrcAcc = Image->getDataAccessor(pRequest.release());

    RasterDataDescriptor* pDescDSM = static_cast<RasterDataDescriptor*>(pDSM->getDataDescriptor());

	FactoryResource<DataRequest> pRequestDSM;
    DataAccessor pDSMAcc = pDSM->getDataAccessor(pRequestDSM.release());

 
	unsigned int N_Row = int(OrthoGrid.Y_Dim)+1;
	unsigned int N_Col = int(OrthoGrid.X_Dim)+1;

	// Check name of raster element //
	Service<ModelServices> pModel;
    vector<string> mCubeNames = pModel->getElementNames("RasterElement");

	int NameIndex = 0, control=0;
	stringstream out;
	string OutputName=Image->getName();
	string OutputName1 = OutputName.substr(0,OutputName.find_last_of("."));

	while (control == 0)
	{
		control = 1;
		OutputName = OutputName1+"_ortho_";

		out << NameIndex;
		OutputName.append(out.str()+".tiff");		
		
		for (unsigned int k=0; k<mCubeNames.size(); k++)
		{
		if (OutputName.compare(mCubeNames[k]) == 0) control = 0;
		}

		NameIndex++;
		out.str("");
		out.clear();

	}

	// Create output raster element and assoiciated descriptor and accessor //
	
	ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(OutputName,N_Row ,N_Col, FLT4BYTES));

	RasterDataDescriptor* pResultDesc = static_cast<RasterDataDescriptor*> (pResultCube->getDataDescriptor());

    FactoryResource<DataRequest> pResultRequest;
    pResultRequest->setWritable(true);
    DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

    double NodeLat, NodeLon, H_IJ=0;
	//int DSM_I, DSM_J;

    for (unsigned int row = 0; row < N_Row; ++row)
    {
	  if (pProgress != NULL)
	  {
      pProgress->updateProgress("Calculating result", row * 100 / N_Row, NORMAL);
	  }

      if (!pDestAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pProgress->updateProgress(msg, 0, ERRORS);
		 pStep->finalize(Message::Failure, msg);
         return false;
      }

      for (unsigned int col = 0; col < N_Col; ++col)
      {

		  NodeLat = OrthoGrid.Lat_Min+row*OrthoGrid.Lat_Step;
		  NodeLon = OrthoGrid.Lon_Min+col*OrthoGrid.Lon_Step;

		  // RETRIEVE HEIGHT VALUE FROM DSM 

		  if (DSM_resampling == 0) 
		  {
		  int DSM_I = int((NodeLon - DSMGrid.Lon_Min)/DSMGrid.Lon_Step);
		  int DSM_J = pDescDSM->getRowCount() - int((NodeLat - DSMGrid.Lat_Min)/DSMGrid.Lat_Step);		  
          pDSMAcc->toPixel(DSM_J,DSM_I);
	      VERIFY(pDSMAcc.isValid());
          H_IJ = (pDSMAcc->getColumnAsDouble());
		  }
		  else
		  {
		  double DSM_I = ((NodeLon - DSMGrid.Lon_Min)/DSMGrid.Lon_Step);
		  double DSM_J = pDescDSM->getRowCount() - ((NodeLat - DSMGrid.Lat_Min)/DSMGrid.Lat_Step);
		  H_IJ = bilinear_height(pDSMAcc,DSM_I,DSM_J);
		  }

		  P_COORD NodeImage = Model->SAR_GroundToImage(NodeLon,NodeLat,H_IJ+Geoid_Offset);

		  if ((NodeImage.I>1 && NodeImage.I< Model->Metadata.Width-1) && (NodeImage.J>1 && NodeImage.J< Model->Metadata.Height-1))
		  {
			switchOnEncoding(pResultDesc->getDataType(), copypixel3, pDestAcc->getColumn(), pSrcAcc, int(NodeImage.I), int(NodeImage.J),boxsize, H_IJ);		
		  }		  
		  pDestAcc->nextColumn();
      }

      pDestAcc->nextRow();
    }

   Service<DesktopServices> pDesktop;

   Service<ModelServices> pMod;

   GcpList* GcpL = static_cast<GcpList*>(pMod->createElement("corner coordinate","GcpList",pResultCube.get()));
   
   // Update GCPs Information: to account for Opticks reading gcp lat&lon values the opposite way around, 
   // here it is necessary to switch the value to assign lat to gcp.mCoordinate.mX  and lon to gcp.mCoordinate.mY 

   GcpPoint Punto;

   Punto.mCoordinate.mX = OrthoGrid.Lat_Min;
   Punto.mCoordinate.mY = OrthoGrid.Lon_Min;
   Punto.mCoordinate.mZ = 0.0;
   Punto.mPixel.mX = 0.0;
   Punto.mPixel.mY = 0.0;

   GcpL->addPoint(Punto);

   Punto.mCoordinate.mX = OrthoGrid.Lat_Max;
   Punto.mCoordinate.mY = OrthoGrid.Lon_Min;
   Punto.mCoordinate.mZ = 0.0;
   Punto.mPixel.mX = 0.0;
   Punto.mPixel.mY = OrthoGrid.Y_Dim;
   
   GcpL->addPoint(Punto);

   Punto.mCoordinate.mX = OrthoGrid.Lat_Min;
   Punto.mCoordinate.mY = OrthoGrid.Lon_Max;
   Punto.mCoordinate.mZ = 0.0;
   Punto.mPixel.mX = OrthoGrid.X_Dim;
   Punto.mPixel.mY = 0.0;
   
   GcpL->addPoint(Punto);

   Punto.mCoordinate.mX = OrthoGrid.Lat_Max;
   Punto.mCoordinate.mY = OrthoGrid.Lon_Max;
   Punto.mCoordinate.mZ = 0.0;
   Punto.mPixel.mX = OrthoGrid.X_Dim;
   Punto.mPixel.mY = OrthoGrid.Y_Dim;
   
   GcpL->addPoint(Punto); 

   SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));
 
   SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();  

   pView->setPrimaryRasterElement(pResultCube.get());

   pView->createLayer(RASTER, pResultCube.get());
   
   pView->createLayer(GCP_LAYER,GcpL,"GCP");

   pView->setDataOrigin(LOWER_LEFT);

   pResultCube.release();

   pProgress->updateProgress("Orthorectification is complete.", 100, NORMAL);
   pStep->addStep("End","app", "B4D426EC-E06D-11E1-83C8-42E56088709B");
   pStep->finalize();

   return true;
   
}

Example #13

File: WaveletKSigmaFilter.cpp Project: felipebetancur/Astronomy-Image-Processing

bool WaveletKSigmaFilter::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Wavelet K-Sigma Filter", "app", "1A4BDC34-5A95-419B-8E53-C92333AFFC3E");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   EncodingType ResultType = pDesc->getDataType();
   if (pDesc->getDataType() == INT4SCOMPLEX)
   {
      ResultType = INT4SBYTES;
   }
   else if (pDesc->getDataType() == FLT8COMPLEX)
   {
      ResultType = FLT8BYTES;
   }

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Noise_Removal_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   Service<DesktopServices> pDesktop;
   WaveletKSigmaDlg dlg(pDesktop->getMainWidget());
   int stat = dlg.exec();
   if (stat != QDialog::Accepted)
   {
	  // pProgress->updateProgress("Level 4 " + StringUtilities::toDisplayString(dlg.getLevelThreshold(3))
       //  + " Level5 " + StringUtilities::toDisplayString(dlg.getLevelThreshold(4)), dlg.getLevelThreshold(0), NORMAL);

	   return true;
   }

   unsigned int rowLoops;
   unsigned int colLoops;
   unsigned int rowIndex = 0;
   unsigned int colIndex = 0;
   double ScaleKValue[MAX_WAVELET_LEVELS] = {0.0};
   for (int k=0; k<MAX_WAVELET_LEVELS;k++)
   {
	   ScaleKValue[k] = dlg.getLevelThreshold(k);
   }
   
   if (0 == pDesc->getRowCount()%rowBlocks)
   {
	   rowLoops = pDesc->getRowCount()/rowBlocks;
   }
   else
   {
	   rowLoops = pDesc->getRowCount()/rowBlocks + 1;
   }

   if (0 == pDesc->getColumnCount()%colBlocks)
   {
	   colLoops = pDesc->getColumnCount()/colBlocks;
   }
   else
   {
	   colLoops = pDesc->getColumnCount()/colBlocks + 1;
   }

   for (unsigned int i = 0; i < rowLoops; i++)
   {
	   if ( rowIndex + rowBlocks > pDesc->getRowCount())
	   {
		   rowIndex = pDesc->getRowCount() - rowBlocks;
	   }

	   colIndex = 0;

	   for (unsigned int j = 0; j < colLoops; j++)
	   {
		   if ( colIndex + colBlocks > pDesc->getColumnCount())
	       {
		       colIndex = pDesc->getColumnCount() - colBlocks;
	       }

		   if (pProgress != NULL)
           {
               pProgress->updateProgress("Remove result", (i*colLoops+j) / (rowLoops*colLoops), NORMAL);
           }
           if (isAborted())
           {
               std::string msg = getName() + " has been aborted.";
               pStep->finalize(Message::Abort, msg);
               if (pProgress != NULL)
               {
                   pProgress->updateProgress(msg, 0, ABORT);
               }
               return false;
           }
      
           //Process the data in current block
		   ProcessData(pSrcAcc, pBuffer, rowIndex, colIndex, rowBlocks, colBlocks, ScaleKValue, pDesc->getDataType());

		   //Output the value 
           for (unsigned int m = 0; m < rowBlocks; m++)
		   {
			   for (unsigned int n = 0; n < colBlocks; n++)
			   {
				   if (!pDestAcc.isValid())
                   {
                       std::string msg = "Unable to access the cube data.";
                       pStep->finalize(Message::Failure, msg);
                       if (pProgress != NULL) 
                       {
                           pProgress->updateProgress(msg, 0, ERRORS);
                       }
                       return false;
                   }

				   pDestAcc->toPixel(rowIndex+m, colIndex+n);
				   
				   switchOnEncoding(ResultType, speckleNoiseRemove, pDestAcc->getColumn(), (pBuffer+m*colBlocks+n));
			   }
		   }
		   colIndex += colBlocks;
	   }
	   rowIndex += rowBlocks;
   }

   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Noise removal is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Noise removal Result", pResultCube.release());

   pStep->finalize();
   return true;
}

Example #14

File: conservative_filter.cpp Project: vijeshm/Opticks-Photography-Addons

bool conservative_filter::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Conservative", "Filter", "5EA0CC75-9E0B-4c3d-BA23-6DB7157BBD55"); //what is this?
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }

   Service <DesktopServices> pDesktop;
   conservative_filter_ui dialog(pDesktop->getMainWidget());
   int status = dialog.exec();
   if (status == QDialog::Accepted)
   {
	   int radius = dialog.getRadiusValue();

   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   
	VERIFY(pDesc != NULL);

   if (pDesc->getDataType() == INT4SCOMPLEX || pDesc->getDataType() == FLT8COMPLEX)
   {
      std::string msg = "Conservative Filter cannot be performed on complex types.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() + "_Conservative_Filter_Result", pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType()));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   for (unsigned int row = 0; row < pDesc->getRowCount(); ++row)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Applying Conservative Filter", row * 100 / pDesc->getRowCount(), NORMAL);
      }
      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }
         return false;
      }
      if (!pDestAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }
      for (unsigned int col = 0; col < pDesc->getColumnCount(); ++col)
      {
         switchOnEncoding(pDesc->getDataType(), verifyRange, pDestAcc->getColumn(), pSrcAcc, row, col, pDesc->getRowCount(), pDesc->getColumnCount(), radius);
         pDestAcc->nextColumn();
      }
      pDestAcc->nextRow();
   }

   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("COnservative Filter is complete", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("conservative_filter_result", pResultCube.release());

   pStep->finalize();
   }
   return true;
}

Example #15

File: AlgorithmPattern.cpp Project: Siddharthk/opticks

void AlgorithmPattern::displayPseudocolorResults(RasterElement* pRasterElement, std::vector<std::string>& sigNames,
                                                 Opticks::PixelOffset offset)
{
   REQUIRE(pRasterElement != NULL);

   SpatialDataView* pView = NULL;

   vector<Window*> windows;
   mpDesktopServices->getWindows(SPATIAL_DATA_WINDOW, windows);
   for (unsigned int j = 0; j < windows.size() && pView == NULL; j++)
   {
      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(windows[j]);
      if (pWindow != NULL)
      {
         SpatialDataView* pCurrentView = pWindow->getSpatialDataView();
         if (pCurrentView != NULL)
         {
            LayerList* pLList = pCurrentView->getLayerList();
            REQUIRE(pLList != NULL);
            vector<Layer*> layers;
            pLList->getLayers(RASTER, layers);
            for (vector<Layer*>::const_iterator layer = layers.begin(); layer != layers.end(); ++layer)
            {
               if (*layer != NULL && static_cast<RasterElement*>((*layer)->getDataElement()) == getRasterElement())
               {
                  pView = pCurrentView;
                  break;
               }
            }
         }
      }
   }

   REQUIRE(pView != NULL);

   PseudocolorLayer* pLayer = NULL;

   // Get or create a valid pseudocolor layer
   LayerList* pLayerList = pView->getLayerList();
   if (pLayerList != NULL)
   {
      pLayer = static_cast<PseudocolorLayer*>(pLayerList->getLayer(PSEUDOCOLOR, pRasterElement));
      if (pLayer == NULL)
      {
         pLayer = static_cast<PseudocolorLayer*>(pView->createLayer(PSEUDOCOLOR, pRasterElement));
      }

      // Remove existing layers of other types
      if (pLayer != NULL)
      {
         Layer* pThresholdLayer = pLayerList->getLayer(THRESHOLD, pRasterElement);
         if (pThresholdLayer != NULL)
         {
            pView->deleteLayer(pThresholdLayer);
         }

         Layer* pRasterLayer = pLayerList->getLayer(RASTER, pRasterElement);
         if (pRasterLayer != NULL)
         {
            pView->deleteLayer(pRasterLayer);
         }
      }
   }

   INVARIANT(pLayer != NULL);

   UndoLock lock(pView);

   int iSignatureCount = sigNames.size();

   vector<ColorType> layerColors;
   vector<ColorType> excludeColors;
   excludeColors.push_back(ColorType(0, 0, 0));
   excludeColors.push_back(ColorType(255, 255, 255));
   // 1 for each sig + no sigs + multiple sigs
   ColorType::getUniqueColors(iSignatureCount + 2, layerColors, excludeColors);

   pLayer->clear();

   for (int i = 0; i < iSignatureCount; i++)
   {
      pLayer->addInitializedClass(sigNames[i], i + 1, layerColors[i], true);
   }

   pLayer->addInitializedClass(std::string("Indeterminate"), -1, layerColors[iSignatureCount], true);
   pLayer->addInitializedClass(std::string("No match"), 0, layerColors[iSignatureCount + 1], false);
   pLayer->setXOffset(offset.mX);
   pLayer->setYOffset(offset.mY);
}

Example #16

File: AlgorithmPattern.cpp Project: Siddharthk/opticks

void AlgorithmPattern::displayThresholdResults(RasterElement* pRasterElement, ColorType color, PassArea passArea,
                                               double firstThreshold, double secondThreshold,
                                               Opticks::PixelOffset offset)
{
   REQUIRE(pRasterElement != NULL);

   SpatialDataView* pView = NULL;

   vector<Window*> windows;
   mpDesktopServices->getWindows(SPATIAL_DATA_WINDOW, windows);
   for (unsigned int i = 0; i < windows.size() && pView == NULL; i++)
   {
      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(windows[i]);
      if (pWindow != NULL)
      {
         SpatialDataView* pCurrentView = pWindow->getSpatialDataView();
         if (pCurrentView != NULL)
         {
            LayerList* pLList = pCurrentView->getLayerList();
            REQUIRE(pLList != NULL);
            vector<Layer*> layers;
            pLList->getLayers(RASTER, layers);
            for (vector<Layer*>::const_iterator layer = layers.begin(); layer != layers.end(); ++layer)
            {
               if (*layer != NULL && static_cast<RasterElement*>((*layer)->getDataElement()) == getRasterElement())
               {
                  pView = pCurrentView;
                  break;
               }
            }
         }
      }
   }

   REQUIRE(pView != NULL);

   ThresholdLayer* pLayer = NULL;

   // Get or create a valid threshold layer
   LayerList* pLayerList = pView->getLayerList();
   if (pLayerList != NULL)
   {
      pLayer = static_cast<ThresholdLayer*>(pLayerList->getLayer(THRESHOLD, pRasterElement));
      if (pLayer == NULL)
      {
         pLayer = static_cast<ThresholdLayer*>(pView->createLayer(THRESHOLD, pRasterElement));
      }

      // Remove existing layers of other types
      if (pLayer != NULL)
      {
         Layer* pRasterLayer = pLayerList->getLayer(RASTER, pRasterElement);
         if (pRasterLayer != NULL)
         {
            pView->deleteLayer(pRasterLayer);
         }

         Layer* pPseudocolorLayer = pLayerList->getLayer(PSEUDOCOLOR, pRasterElement);
         if (pPseudocolorLayer != NULL)
         {
            pView->deleteLayer(pPseudocolorLayer);
         }
      }
   }

   INVARIANT(pLayer != NULL);

   UndoLock lock(pView);

   if (color.isValid())
   {
      pLayer->setColor(color);
   }

   pLayer->setRegionUnits(RAW_VALUE);
   pLayer->setPassArea(passArea);
   pLayer->setFirstThreshold(firstThreshold);
   pLayer->setSecondThreshold(secondThreshold);
   pLayer->setXOffset(offset.mX);
   pLayer->setYOffset(offset.mY);
}

Example #17

File: SimpleViews.cpp Project: Siddharthk/opticks

   View* createView(const char* pName, const char* pType, DataElement* pElement)
   {
      if (pName == NULL || pType == NULL)
      {
         setLastError(SIMPLE_BAD_PARAMS);
         return NULL;
      }
      ViewType type(StringUtilities::fromXmlString<ViewType>(std::string(pType)));
      RasterElement* pRaster = dynamic_cast<RasterElement*>(pElement);
      if (type == SPATIAL_DATA_VIEW && pRaster == NULL)
      {
         setLastError(SIMPLE_BAD_PARAMS);
         return NULL;
      }
      WindowType windowType;
      switch(type)
      {
      case SPATIAL_DATA_VIEW:
         windowType = SPATIAL_DATA_WINDOW;
         break;
      case PRODUCT_VIEW:
         windowType = PRODUCT_WINDOW;
         break;
      case PLOT_VIEW:
         windowType = DOCK_WINDOW;
         break;
      }
      Window* pWindow = Service<DesktopServices>()->createWindow(std::string(pName), windowType);
      if (type == PLOT_VIEW)
      {
         DockWindow* pDockWindow = dynamic_cast<DockWindow*>(pWindow);
         if (pDockWindow != NULL)
         {
            PlotSetGroup* pPlotSetGroup = Service<DesktopServices>()->createPlotSetGroup();
            if (pPlotSetGroup == NULL)
            {
               Service<DesktopServices>()->deleteWindow(pDockWindow);
               setLastError(SIMPLE_OTHER_FAILURE);
               return NULL;
            }

            pDockWindow->setWidget(pPlotSetGroup->getWidget());
         }
      }
      View* pView = pWindow == NULL ? NULL : static_cast<ViewWindow*>(pWindow)->getView();
      if (pView == NULL)
      {
         if (Service<DesktopServices>()->getWindow(std::string(pName), windowType) != NULL)
         {
            setLastError(SIMPLE_EXISTS);
         }
         else
         {
            setLastError(SIMPLE_OTHER_FAILURE);
         }
         return NULL;
      }
      if (type == SPATIAL_DATA_VIEW)
      {
         SpatialDataView* pSdv = static_cast<SpatialDataView*>(pView);
         if (!pSdv->setPrimaryRasterElement(pRaster))
         {
            Service<DesktopServices>()->deleteWindow(pWindow);
            setLastError(SIMPLE_OTHER_FAILURE);
            return NULL;
         }
         { // scope
            UndoLock lock(pView);
            if (pSdv->createLayer(RASTER, pRaster) == NULL)
            {
               Service<DesktopServices>()->deleteWindow(pWindow);
               setLastError(SIMPLE_OTHER_FAILURE);
               return NULL;
            }
         }
      }
      setLastError(SIMPLE_NO_ERROR);
      return pView;
   }

Example #18

File: bilinear_bayer.cpp Project: vijeshm/Opticks-Photography-Addons

bool bilinear_bayer::execute(PlugInArgList * pInArgList,
							 PlugInArgList * pOutArgList)
{


	StepResource pStep("bilinear_bayer", "pratik",
					   "27170298-10CE-4E6C-AD7A-97E8058C29FF");
	if (pInArgList == NULL || pOutArgList == NULL)
	{
		return false;
	}

	Progress *pProgress =
		pInArgList->getPlugInArgValue < Progress > (Executable::ProgressArg());

	RasterElement *pCube = pInArgList->getPlugInArgValue < RasterElement > (Executable::DataElementArg());	// pCube

	if (pCube == NULL)
	{
		std::string msg = "A raster cube must be specified.";
		pStep->finalize(Message::Failure, msg);
		if (pProgress != NULL)
		{
			pProgress->updateProgress(msg, 0, ERRORS);
		}

		return false;
	}

	pProgress->updateProgress("Starting calculations", 10, NORMAL);
	RasterDataDescriptor *pDesc =
		static_cast < RasterDataDescriptor * >(pCube->getDataDescriptor());
	VERIFY(pDesc != NULL);


	std::string msg = "De-bayerize by bilinear interpolation \n";
	pProgress->updateProgress(msg, 20, NORMAL);	// show initial R,G and B
												// values

	RasterElement *dRas =
		RasterUtilities::createRasterElement(pCube->getName() + "RGB",
											 pDesc->getRowCount(),
											 pDesc->getColumnCount(), 3,
											 pDesc->getDataType(), BSQ);

	// request

	pProgress->updateProgress(msg, 50, NORMAL);

	copyImage(pCube, dRas, 0, pProgress);
	pProgress->updateProgress(msg + "RED complete", 60, NORMAL);

	copyImage(pCube, dRas, 1, pProgress);
	pProgress->updateProgress(msg + "GREEN complete", 70, NORMAL);

	copyImage(pCube, dRas, 2, pProgress);
	pProgress->updateProgress(msg + "BLUE complete", 80, NORMAL);



	// new model resource
	RasterDataDescriptor *rDesc =
		dynamic_cast < RasterDataDescriptor * >(dRas->getDataDescriptor());
	rDesc->setDisplayMode(RGB_MODE);	// enable color mode
	rDesc->setDisplayBand(RED, rDesc->getActiveBand(0));
	rDesc->setDisplayBand(GREEN, rDesc->getActiveBand(1));
	rDesc->setDisplayBand(BLUE, rDesc->getActiveBand(2));
	ModelResource < RasterElement > pResultCube(dRas);


	pProgress->updateProgress("Final", 100, NORMAL);

	// create window

	if (!isBatch())
	{
		Service < DesktopServices > pDesktop;

		SpatialDataWindow *pWindow =
			static_cast <
			SpatialDataWindow *
			>(pDesktop->createWindow(pResultCube->getName(),
									 SPATIAL_DATA_WINDOW));

		SpatialDataView *pView =
			(pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
		if (pView == NULL)
		{
			std::string msg = "Unable to create view.";
			pStep->finalize(Message::Failure, msg);
			if (pProgress != NULL)
			{
				pProgress->updateProgress(msg, 0, ERRORS);
			}
			return false;
		}




		pView->setPrimaryRasterElement(pResultCube.get());
		pView->createLayer(RASTER, pResultCube.get());

	}
	pOutArgList->setPlugInArgValue("bilinear_bayer_Result", pResultCube.release());	// for 
																					// saving 
																					// data

	pStep->finalize();
	return true;
}

Example #19

File: ChangeUpDirection.cpp Project: Tom-VdE/opticks

bool ChangeUpDirection::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   ProgressTracker progress(pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg()),
      "Rotating data.", "app", "{11adadb9-c133-49de-8cf5-a16372da2578}");

   RasterElement* pData = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pData == NULL)
   {
      progress.report("No data element specified.", 0, ERRORS, true);
      return false;
   }
   bool display = false;
   if (!pInArgList->getPlugInArgValue("Display Results", display))
   {
      progress.report("Unsure if results should be displayed. Invalid argument.", 0, ERRORS, true);
      return false;
   }
   double rotation = 0.0;
   SpatialDataView* pOrigView = NULL;
   if (isBatch())
   {
      if (!pInArgList->getPlugInArgValue("Rotation", rotation))
      {
         progress.report("No rotation specified.", 0, ERRORS, true);
         return false;
      }
   }
   else
   {
      pOrigView = pInArgList->getPlugInArgValue<SpatialDataView>(Executable::ViewArg());
      if (pOrigView == NULL)
      {
         progress.report("No view specified.", 0, ERRORS, true);
         return false;
      }
      GraphicLayer* pLayer = dynamic_cast<GraphicLayer*>(pOrigView->getActiveLayer());
      if (pLayer == NULL)
      {
         pLayer = dynamic_cast<GraphicLayer*>(pOrigView->getTopMostLayer(ANNOTATION));
      }
      GraphicObject* pArrow = NULL;
      if (pLayer != NULL)
      {
         std::list<GraphicObject*> objects;
         pLayer->getObjects(ARROW_OBJECT, objects);
         if (!objects.empty())
         {
            pArrow = objects.back();
         }
         if (objects.size() > 1)
         {
            progress.report("Multiple arrow objects found. Using the most recently added one.", 0, WARNING, true);
         }
      }
      if (pArrow == NULL)
      {
         progress.report("Unable to locate up direction. Add an arrow annotation and re-run this plugin.",
            0, ERRORS, true);
         return false;
      }
      LocationType ur = pArrow->getUrCorner();
      LocationType ll = pArrow->getLlCorner();
      double xlen = ur.mX - ll.mX;
      double ylen = ur.mY - ll.mY;

      // Initial rotatation value. The 90 degrees is due to the difference
      // in the "0 point" (right vs. up). Also account for explicit rotation
      // of the annotation object. Convert this to radians.
      rotation = GeoConversions::convertDegToRad(90 + pArrow->getRotation());

      // Determine a rotation adjustment based on the bounding box
      rotation += atan2(ylen, xlen);
   }

   progress.report("Rotating data.", 10, NORMAL);
   ModelResource<RasterElement> pRotated(pData->copyShallow(pData->getName() + "_rotated", pData->getParent()));
   if (pRotated.get() == NULL)
   {
      progress.report("Unable to create destination raster element.", 0, ERRORS, true);
      return false;
   }

   int defaultBadValue(0);  // the rotate method will handle setting the default bad values into the rotated raster
   if (!RasterUtilities::rotate(pRotated.get(), pData, rotation, defaultBadValue,
      INTERP_NEAREST_NEIGHBOR, progress.getCurrentProgress(), &mAbort))
   {
      // error message already reported by rotate()
      return false;
   }
   pOutArgList->setPlugInArgValue("Rotated Element", pRotated.get());

   if (display)
   {
      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(
         Service<DesktopServices>()->createWindow(pRotated->getName(), SPATIAL_DATA_WINDOW));
      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         Service<DesktopServices>()->deleteWindow(pWindow);
         progress.report("Unable to create view.", 0, ERRORS, true);
         return false;
      }
      pView->setPrimaryRasterElement(pRotated.get());

      RasterLayer* pLayer = NULL;
      { // scope
         UndoLock lock(pView);
         pLayer = static_cast<RasterLayer*>(pView->createLayer(RASTER, pRotated.get()));
      }
      if (pLayer == NULL)
      {
//#pragma message(__FILE__ "(" STRING(__LINE__) ") : warning : This would be cleaner with a WindowResource. If one " \
//                                              "becomes available, use it instead. (tclarke)")
         Service<DesktopServices>()->deleteWindow(pWindow);
         progress.report("Unable to create layer.", 0, ERRORS, true);
         return false;
      }
      pOutArgList->setPlugInArgValue("View", pView);
   }

   pRotated.release();
   progress.report("Rotation complete.", 100, NORMAL);
   progress.upALevel();
   return true;
}

Example #20

File: highpass.cpp Project: pMav5/Ship-Detection-Applet-for-Opticks

bool HIGHPASS::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Tutorial 5", "app", "219F1882-A59F-4835-BE2A-E83C0C8111EB");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());

   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "DResult", pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType()));

   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());
   int rowSize= pDesc->getRowCount();
   int colSize = pDesc->getColumnCount();
   int zero=0;
   int prevCol = 0;
      int prevRow = 0;
      int nextCol = 0;
      int nextRow = 0;

	  int prevCol1 = 0;
	  int prevRow1= 0;
	  int nextCol1= 0;
	  int nextRow1= 0;

   for (unsigned int row = 0; row < pDesc->getRowCount(); ++row)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Calculating result", row * 100 / pDesc->getRowCount(), NORMAL);
      }
      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }
         return false;
      }
      if (!pDestAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }
      for (unsigned int col = 0; col < pDesc->getColumnCount(); ++col)
      {
		  
		  double value=edgeDetection7(pSrcAcc, row, col, pDesc->getRowCount(), pDesc->getColumnCount());
          switchOnEncoding(pDesc->getDataType(), conversion, pDestAcc->getColumn(), value);
          pDestAcc->nextColumn();
		  
      }

      pDestAcc->nextRow();
   }

   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("HighPass is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Result", pResultCube.release());

   pStep->finalize();
   return true;
}

Example #21

File: ChippingWindow.cpp Project: wzssyqa/opticks-cmake

void ChippingWindow::createView()
{
   if (mpChippingWidget == NULL)
   {
      return;
   }

   RasterElement* pRaster = getRasterElement();
   if (pRaster == NULL)
   {
      return;
   }

   // Create the new raster element from the primary element of the source.
   // Note that this does not chip displayed elements if they differ from the primary element.
   // This causes a special case below where the stretch values are being applied to the chipped layer.
   RasterElement* pRasterChip = pRaster->createChip(pRaster->getParent(), "_chip",
      mpChippingWidget->getChipRows(), mpChippingWidget->getChipColumns(), mpChippingWidget->getChipBands());
   if (pRasterChip == NULL)
   {
      QMessageBox::critical(this, windowTitle(), "Unable to create a new cube!");
      return;
   }

   const RasterDataDescriptor* pDescriptor =
      dynamic_cast<const RasterDataDescriptor*>(pRasterChip->getDataDescriptor());
   VERIFYNRV(pDescriptor != NULL);

   // Create a view for the new chip
   SpatialDataWindow* pWindow = dynamic_cast<SpatialDataWindow*>(
      Service<DesktopServices>()->createWindow(pRasterChip->getName(), SPATIAL_DATA_WINDOW));
   if (pWindow == NULL)
   {
      return;
   }

   SpatialDataView* pView = pWindow->getSpatialDataView();
   if (pView == NULL)
   {
      Service<DesktopServices>()->deleteWindow(pWindow);
      return;
   }

   UndoLock lock(pView);
   if (pView->setPrimaryRasterElement(pRasterChip) == false)
   {
      Service<DesktopServices>()->deleteWindow(pWindow);
      return;
   }

   // RasterLayerImp is needed for the call to setCurrentStretchAsOriginalStretch().
   RasterLayerImp* pLayer = dynamic_cast<RasterLayerImp*>(pView->createLayer(RASTER, pRasterChip));
   if (pLayer == NULL)
   {
      Service<DesktopServices>()->deleteWindow(pWindow);
      return;
   }

   string origName = pRaster->getName();

   SpatialDataWindow* pOrigWindow = dynamic_cast<SpatialDataWindow*>(
      Service<DesktopServices>()->getWindow(origName, SPATIAL_DATA_WINDOW));
   if (pOrigWindow != NULL)
   {
      SpatialDataView* pOrigView = pOrigWindow->getSpatialDataView();
      if (pOrigView != NULL)
      {
         LayerList* pLayerList = pOrigView->getLayerList();
         if (pLayerList != NULL)
         {
            RasterLayer* pOrigLayer = static_cast<RasterLayer*>(pLayerList->getLayer(RASTER, pRaster));
            if (pOrigLayer != NULL)
            {
               // Set the stretch type first so that stretch values are interpreted correctly.
               pLayer->setStretchType(GRAYSCALE_MODE, pOrigLayer->getStretchType(GRAYSCALE_MODE));
               pLayer->setStretchType(RGB_MODE, pOrigLayer->getStretchType(RGB_MODE));
               pLayer->setDisplayMode(pOrigLayer->getDisplayMode());

               // Set the properties of the cube layer in the new view.
               // For each channel, display the first band if the previously displayed band was chipped.
               vector<RasterChannelType> channels = StringUtilities::getAllEnumValues<RasterChannelType>();
               for (vector<RasterChannelType>::const_iterator iter = channels.begin(); iter != channels.end(); ++iter)
               {
                  bool bandCopied = true;
                  DimensionDescriptor newBand;
                  DimensionDescriptor oldBand = pOrigLayer->getDisplayedBand(*iter);
                  if (oldBand.isOriginalNumberValid() == true)
                  {
                     newBand = pDescriptor->getOriginalBand(oldBand.getOriginalNumber());
                  }

                  if (newBand.isValid() == false)
                  {
                     bandCopied = false;
                     newBand = pDescriptor->getBands().front();
                  }

                  // No need to explicitly set the RasterElement here since the new view only has one RasterElement.
                  pLayer->setDisplayedBand(*iter, newBand);

                  // Use the default stretch properties if the displayed band was removed from the view or
                  // if the non-primary raster element was displayed. Otherwise, copy the stretch properties.
                  if (bandCopied && pRaster == pOrigLayer->getDisplayedRasterElement(*iter))
                  {
                     // Set the stretch units first so that stretch values are interpreted correctly.
                     pLayer->setStretchUnits(*iter, pOrigLayer->getStretchUnits(*iter));

                     double lower;
                     double upper;
                     pOrigLayer->getStretchValues(*iter, lower, upper);
                     pLayer->setStretchValues(*iter, lower, upper);
                  }
               }

               pLayer->setCurrentStretchAsOriginalStretch();
               pView->refresh();
            }
         }
      }
   }

   // Create a GCP layer
   if (pRaster->isGeoreferenced() == true)
   {
      const vector<DimensionDescriptor>& rows = mpChippingWidget->getChipRows();
      const vector<DimensionDescriptor>& columns = mpChippingWidget->getChipColumns();
      if ((rows.empty() == false) && (columns.empty() == false))
      {
         // Get the geocoordinates at the chip corners
         VERIFYNRV(rows.front().isActiveNumberValid() == true);
         VERIFYNRV(rows.back().isActiveNumberValid() == true);
         VERIFYNRV(columns.front().isActiveNumberValid() == true);
         VERIFYNRV(columns.back().isActiveNumberValid() == true);

         unsigned int startRow = rows.front().getActiveNumber();
         unsigned int endRow = rows.back().getActiveNumber();
         unsigned int startCol = columns.front().getActiveNumber();
         unsigned int endCol = columns.back().getActiveNumber();

         GcpPoint ulPoint;
         ulPoint.mPixel = LocationType(startCol, startRow);
         ulPoint.mCoordinate = pRaster->convertPixelToGeocoord(ulPoint.mPixel);

         GcpPoint urPoint;
         urPoint.mPixel = LocationType(endCol, startRow);
         urPoint.mCoordinate = pRaster->convertPixelToGeocoord(urPoint.mPixel);

         GcpPoint llPoint;
         llPoint.mPixel = LocationType(startCol, endRow);
         llPoint.mCoordinate = pRaster->convertPixelToGeocoord(llPoint.mPixel);

         GcpPoint lrPoint;
         lrPoint.mPixel = LocationType(endCol, endRow);
         lrPoint.mCoordinate = pRaster->convertPixelToGeocoord(lrPoint.mPixel);

         GcpPoint centerPoint;
         centerPoint.mPixel = LocationType((startCol + endCol) / 2, (startRow + endRow) / 2);
         centerPoint.mCoordinate = pRaster->convertPixelToGeocoord(centerPoint.mPixel);

         // Reset the coordinates to be in active numbers relative to the chip
         const vector<DimensionDescriptor>& chipRows = pDescriptor->getRows();
         const vector<DimensionDescriptor>& chipColumns = pDescriptor->getColumns();

         VERIFYNRV(chipRows.front().isActiveNumberValid() == true);
         VERIFYNRV(chipRows.back().isActiveNumberValid() == true);
         VERIFYNRV(chipColumns.front().isActiveNumberValid() == true);
         VERIFYNRV(chipColumns.back().isActiveNumberValid() == true);

         unsigned int chipStartRow = chipRows.front().getActiveNumber();
         unsigned int chipEndRow = chipRows.back().getActiveNumber();
         unsigned int chipStartCol = chipColumns.front().getActiveNumber();
         unsigned int chipEndCol = chipColumns.back().getActiveNumber();
         ulPoint.mPixel = LocationType(chipStartCol, chipStartRow);
         urPoint.mPixel = LocationType(chipEndCol, chipStartRow);
         llPoint.mPixel = LocationType(chipStartCol, chipEndRow);
         lrPoint.mPixel = LocationType(chipEndCol, chipEndRow);
         centerPoint.mPixel = LocationType((chipStartCol + chipEndCol) / 2, (chipStartRow + chipEndRow) / 2);

         // Create the GCP list
         Service<ModelServices> pModel;

         GcpList* pGcpList = static_cast<GcpList*>(pModel->createElement("Corner Coordinates",
            TypeConverter::toString<GcpList>(), pRasterChip));
         if (pGcpList != NULL)
         {
            list<GcpPoint> gcps;
            gcps.push_back(ulPoint);
            gcps.push_back(urPoint);
            gcps.push_back(llPoint);
            gcps.push_back(lrPoint);
            gcps.push_back(centerPoint);

            pGcpList->addPoints(gcps);

            // Create the layer
            if (pView->createLayer(GCP_LAYER, pGcpList) == NULL)
            {
               QMessageBox::warning(this, windowTitle(), "Could not create a GCP layer.");
            }
         }
         else
         {
            QMessageBox::warning(this, windowTitle(), "Could not create a GCP list.");
         }
      }
   }
}

Example #22

bool ShapeFileImporter::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   // prevent session auto save while importing shape file
   SessionSaveLock lock;

   StepResource pStep("Run Importer", "app", "F5264701-1D60-474b-AB62-C674A6AC1477");
   mpStep = pStep.get();
   pStep->addProperty("name", getName());

   mpProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   Progress* pProgress = mpProgress;

   // interactive

   SpatialDataView* pView = pInArgList->getPlugInArgValue<SpatialDataView>(Executable::ViewArg());
   RasterElement* pRaster = NULL;

   FAIL_IF(pView == NULL, "Could not find view to insert into.", return false);

   AnnotationElement* pAnno = pInArgList->getPlugInArgValue<AnnotationElement>(Importer::ImportElementArg());
   FAIL_IF(pAnno == NULL, "Could not find created element.", return false);

   AnnotationLayer* pAnnotationLayer = NULL;
   const LayerList* pLayerList = pView->getLayerList();
   FAIL_IF(pLayerList == NULL, "Could not find layer list.", return false);

   pRaster = pLayerList->getPrimaryRasterElement();

   FAIL_IF(pRaster == NULL, "No data cube could be found.", return false);
   FAIL_IF(!pRaster->isGeoreferenced(), "No georeference could be found.", return false)

   const DataDescriptor* pDescriptor = pAnno->getDataDescriptor();
   FAIL_IF(pDescriptor == NULL, "The descriptor is invalid.", return false);

   createFeatureClassIfNeeded(pDescriptor);
   if (mpFeatureClass.get() == NULL)
   {
      // Progress and Step has been taken care of
      return false;
   }

   if (mpOptionsWidget != NULL)
   {
      mpOptionsWidget->applyChanges();
   }

   const ArcProxyLib::ConnectionParameters& connect = mpFeatureClass->getConnectionParameters();
   pStep->addProperty("connectionParameters", connect.toString());

   vector<ArcProxyLib::ConnectionType> availableConnections = getAvailableConnectionTypes();
   FAIL_IF(find(availableConnections.begin(), availableConnections.end(), 
      connect.getConnectionType()) == availableConnections.end(), 
      "The selected connection type is not available.", return false)

   Service<ModelServices> pModel;
   FAIL_IF(!pModel->setElementParent(pAnno, pRaster) || !pModel->setElementName(pAnno, connect.getFeatureClass()),
      "This shape file has already been imported", return false)

   FAIL_IF(pAnno->setGeocentric(true) == false, "Could not set the element to geocentric.", return false)

   UndoGroup group(pView, "Set Object Properties");

   string layerName = mpFeatureClass->getLayerName();

   pAnnotationLayer = static_cast<AnnotationLayer*>(pLayerList->getLayer(ANNOTATION, pAnno, layerName));
   if (pAnnotationLayer == NULL)
   {
      pAnnotationLayer = static_cast<AnnotationLayer*>(pView->createLayer(ANNOTATION, pAnno, layerName));
   }
   if (pAnnotationLayer != NULL && mpFeatureClass->hasLabels())
   {
      pAnnotationLayer->setShowLabels(true);
   }

   pAnnotationLayer->setLayerLocked(true);

   ModelResource<Any> pAny("Geographic feature", pAnno, "FeatureClass");

   mpFeatureClass->setParentElement(pAnno);

   if (!mpFeatureClass->open(mMessageText) || !mpFeatureClass->update(mpProgress, mMessageText))
   {
      if (mpProgress)
      {
         mpProgress->updateProgress("Error: " + mMessageText, 0, ERRORS);
      }

      pStep->finalize(Message::Failure, mMessageText);
      return false;
   }

   pAny->setData(mpFeatureClass.release());
   pAny.release();
   mpProgress->updateProgress("Complete", 100, NORMAL);
   pStep->finalize(Message::Success);

   return true;
}

Example #23

File: CgmImporter.cpp Project: Siddharthk/opticks

bool CgmImporter::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   Progress* pProgress = NULL;
   DataElement* pElement = NULL;
   StepResource pStep("Import cgm element", "app", "8D5522FE-4A89-44cb-9735-6920A3BFC903");

   // get input arguments and log some useful info about them
   { // scope the MessageResource
      MessageResource pMsg("Input arguments", "app", "A1735AC7-C182-45e6-826F-690DBA15D84A");

      pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
      pMsg->addBooleanProperty("Progress Present", (pProgress != NULL));
      
      pElement = pInArgList->getPlugInArgValue<DataElement>(Importer::ImportElementArg());
      if (pElement == NULL)
      {
         if (pProgress != NULL)
         {
            pProgress->updateProgress("No data element", 0, ERRORS);
         }
         pStep->finalize(Message::Failure, "No data element");
         return false;
      }
      pMsg->addProperty("Element name", pElement->getName());
   }
   if (pProgress != NULL)
   {
      pProgress->updateProgress((string("Read and parse file ") + pElement->getFilename()), 20, NORMAL);
   }

   // Create a new annotation layer for a spatial data view or get the layout layer for a product view
   if (pProgress != NULL)
   {
      pProgress->updateProgress("Create a new layer", 30, NORMAL);
   }

   View* pView = mpDesktop->getCurrentWorkspaceWindowView();
   if (pView == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Could not access the current view.", 0, ERRORS);
      }

      pStep->finalize(Message::Failure, "Could not access the current view.");
      return false;
   }

   UndoGroup undoGroup(pView, "Import CGM");
   AnnotationLayer* pLayer = NULL;

   SpatialDataView* pSpatialDataView = dynamic_cast<SpatialDataView*>(pView);
   if (pSpatialDataView != NULL)
   {
      // Set the parent element of the annotation element to the primary raster element
      LayerList* pLayerList = pSpatialDataView->getLayerList();
      if (pLayerList != NULL)
      {
         RasterElement* pNewParentElement = pLayerList->getPrimaryRasterElement();
         if (pNewParentElement != NULL)
         {
            Service<ModelServices> pModel;
            pModel->setElementParent(pElement, pNewParentElement);
         }
      }

      pLayer = dynamic_cast<AnnotationLayer*>(pSpatialDataView->createLayer(ANNOTATION, pElement));
   }
   else
   {
      ProductView* pProductView = dynamic_cast<ProductView*>(mpDesktop->getCurrentWorkspaceWindowView());
      if (pProductView != NULL)
      {
         pLayer = pProductView->getLayoutLayer();
      }
   }

   if (pLayer == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Unable to get the annotation layer", 0, ERRORS);
      }

      pStep->finalize(Message::Failure, "Unable to get the annotation layer");
      return false;
   }

   // add the CGM object
   if (pProgress != NULL)
   {
      pProgress->updateProgress("Create the CGM object", 60, NORMAL);
   }
   CgmObject* pCgmObject = dynamic_cast<CgmObject*>(pLayer->addObject(CGM_OBJECT));
   if (pCgmObject == NULL)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Unable to create the CGM object", 0, ERRORS);
      }
      pStep->finalize(Message::Failure, "Unable to create the CGM object");
      return false;
   }

   // load the CGM file
   if (pProgress != NULL)
   {
      pProgress->updateProgress("Load the CGM file", 90, NORMAL);
   }
   string fname = pElement->getDataDescriptor()->getFileDescriptor()->getFilename().getFullPathAndName();
   if (!pCgmObject->deserializeCgm(fname))
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Error loading the CGM element", 0, ERRORS);
      }
      pStep->finalize(Message::Failure, "Unable to parse the CGM file.");
      return false;
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Successfully loaded the CGM file", 100, NORMAL);
   }
   pStep->finalize(Message::Success);
   return true;
}

Example #24

File: LocalSharpening.cpp Project: felipebetancur/Astronomy-Image-Processing

bool LocalSharpening::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Local Sharpening", "app", "08BB9B79-5D24-4AB0-9F35-92DE77CED8E7");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   EncodingType ResultType = pDesc->getDataType();
   if (pDesc->getDataType() == INT4SCOMPLEX)
   {
      ResultType = INT4SBYTES;
   }
   else if (pDesc->getDataType() == FLT8COMPLEX)
   {
      ResultType = FLT8BYTES;
   }

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Local_Sharpening_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   Service<DesktopServices> pDesktop;
   LocalSharpeningDlg dlg(pDesktop->getMainWidget());
   int stat = dlg.exec();
   if (stat != QDialog::Accepted)
   {
	   return true;
   }
   double contrastVal = dlg.getContrastValue();
   int nFilterType = dlg.getCurrentFilterType();
   int windowSize = dlg.getCurrentWindowSize();
   windowSize = (windowSize-1)/2;

   for (unsigned int row = 0; row < pDesc->getRowCount(); ++row)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Local sharpening", row * 100 / pDesc->getRowCount(), NORMAL);
      }
      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }
         return false;
      }
      if (!pDestAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }
      for (unsigned int col = 0; col < pDesc->getColumnCount(); ++col)
      {
		  if (nFilterType == 0)
		  {
			  switchOnEncoding(ResultType, localAdaptiveSharpening, pDestAcc->getColumn(), pSrcAcc, row, col,
                               pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType(), windowSize, contrastVal);
		  }
		  else
		  {
           
			  switchOnEncoding(ResultType, localExtremeSharpening, pDestAcc->getColumn(), pSrcAcc, row, col,
                               pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType(), windowSize);
		  }
		  pDestAcc->nextColumn();
      }

      pDestAcc->nextRow();
   }


   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Local sharpening is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Local sharpening Result", pResultCube.release());

   pStep->finalize();


   return true;
}

Example #25

File: pagauss.cpp Project: pratikone/gsoc2011-opticks

bool pagauss::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Tutorial 5", "app", "5EA0CC75-9E0B-4c3d-BA23-6DB7157BBD54");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   if (pDesc->getDataType() == INT4SCOMPLEX || pDesc->getDataType() == FLT8COMPLEX)
   {
      std::string msg = "Edge detection cannot be performed on complex types.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }

   


   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Edge_Detection_Result", pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType()));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());
   

   for (long signed int row = 0; row < pDesc->getRowCount(); ++row)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Calculating result", row * 100 / pDesc->getRowCount(), NORMAL);
      }
      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }
         return false;
      }
      if (!pDestAcc.isValid())
      {
         std::string msg = "Unable to access the cube data.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }
      for (long signed int col = 0; col < pDesc->getColumnCount(); ++col)
      {
         switchOnEncoding(pDesc->getDataType(), gauss, pDestAcc->getColumn(), pSrcAcc, row, col,
            pDesc->getRowCount(), pDesc->getColumnCount());
         pDestAcc->nextColumn();
      }

      pDestAcc->nextRow();
   }

   

   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("pagauss is compete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("pagauss_Result", pResultCube.release());

   pStep->finalize();
   return true;
}

Example #26

File: RasterElementImporterShell.cpp Project: Tom-VdE/opticks

QWidget* RasterElementImporterShell::getPreview(const DataDescriptor* pDescriptor, Progress* pProgress)
{
   if (pDescriptor == NULL)
   {
      return NULL;
   }

   // Create a copy of the descriptor to change the loading parameters
   string previewName = string("Preview: ") + pDescriptor->getName();

   RasterDataDescriptor* pLoadDescriptor = dynamic_cast<RasterDataDescriptor*>(pDescriptor->copy(previewName, NULL));
   if (pLoadDescriptor == NULL)
   {
      return NULL;
   }

   // Set the active row and column numbers
   vector<DimensionDescriptor> newRows = pLoadDescriptor->getRows();
   for (unsigned int i = 0; i < newRows.size(); ++i)
   {
      newRows[i].setActiveNumber(i);
   }
   pLoadDescriptor->setRows(newRows);

   vector<DimensionDescriptor> newColumns = pLoadDescriptor->getColumns();
   for (unsigned int i = 0; i < newColumns.size(); ++i)
   {
      newColumns[i].setActiveNumber(i);
   }
   pLoadDescriptor->setColumns(newColumns);

   // Set the bands to load to just the first band and display it in grayscale mode
   const vector<DimensionDescriptor>& bands = pLoadDescriptor->getBands();
   if (bands.empty() == false)
   {
      DimensionDescriptor displayBand = bands.front();
      displayBand.setActiveNumber(0);

      vector<DimensionDescriptor> newBands;
      newBands.push_back(displayBand);

      pLoadDescriptor->setBands(newBands);
      pLoadDescriptor->setDisplayMode(GRAYSCALE_MODE);
      pLoadDescriptor->setDisplayBand(GRAY, displayBand);
   }

   // Set the processing location to load on-disk read-only
   pLoadDescriptor->setProcessingLocation(ON_DISK_READ_ONLY);

   // Do not georeference
   GeoreferenceDescriptor* pLoadGeorefDescriptor = pLoadDescriptor->getGeoreferenceDescriptor();
   if (pLoadGeorefDescriptor != NULL)
   {
      pLoadGeorefDescriptor->setGeoreferenceOnImport(false);
   }

   // Validate the preview
   string errorMessage;
   bool bValidPreview = validate(pLoadDescriptor, vector<const DataDescriptor*>(), errorMessage);
   if (bValidPreview == false)
   {
      // Try an in-memory preview
      pLoadDescriptor->setProcessingLocation(IN_MEMORY);
      bValidPreview = validate(pLoadDescriptor, vector<const DataDescriptor*>(), errorMessage);
   }

   QWidget* pPreviewWidget = NULL;
   if (bValidPreview == true)
   {
      // Create the model element
      RasterElement* pRasterElement = static_cast<RasterElement*>(mpModel->createElement(pLoadDescriptor));
      if (pRasterElement != NULL)
      {
         // Add the progress and raster element to an input arg list
         PlugInArgList* pInArgList = NULL;
         bool bSuccess = getInputSpecification(pInArgList);
         if ((bSuccess == true) && (pInArgList != NULL))
         {
            bSuccess = pInArgList->setPlugInArgValue(Executable::ProgressArg(), pProgress);
            if (bSuccess)
            {
               bSuccess = pInArgList->setPlugInArgValue(Importer::ImportElementArg(), pRasterElement);
            }
         }

         // Load the data in batch mode
         bool bBatch = isBatch();
         setBatch();

         bSuccess = execute(pInArgList, NULL);

         // Restore to interactive mode if necessary
         if (bBatch == false)
         {
            setInteractive();
         }

         // Create the spatial data view
         if (bSuccess == true)
         {
            string name = pRasterElement->getName();

            SpatialDataView* pView = static_cast<SpatialDataView*>(mpDesktop->createView(name, SPATIAL_DATA_VIEW));
            if (pView != NULL)
            {
               // Set the spatial data in the view
               pView->setPrimaryRasterElement(pRasterElement);

               // Add the cube layer
               RasterLayer* pLayer = static_cast<RasterLayer*>(pView->createLayer(RASTER, pRasterElement));
               if (pLayer != NULL)
               {
                  // Get the widget from the view
                  pPreviewWidget = pView->getWidget();
               }
               else
               {
                  string message = "Could not create the cube layer!";
                  if (pProgress != NULL)
                  {
                     pProgress->updateProgress(message, 0, ERRORS);
                  }

                  mpModel->destroyElement(pRasterElement);
               }
            }
            else
            {
               string message = "Could not create the view!";
               if (pProgress != NULL)
               {
                  pProgress->updateProgress(message, 0, ERRORS);
               }

               mpModel->destroyElement(pRasterElement);
            }
         }
         else
         {
            mpModel->destroyElement(pRasterElement);
         }
      }
   }

   // Delete the data descriptor copy
   mpModel->destroyDataDescriptor(pLoadDescriptor);

   return pPreviewWidget;
}

Example #27

File: Deconvolution.cpp Project: felipebetancur/Astronomy-Image-Processing

bool Deconvolution::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Deconvolution Sharpening", "app", "619F3C8A-FB70-44E0-B211-B116E604EDDA");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());
   if (pCube == NULL)
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   EncodingType ResultType = pDesc->getDataType();
   if (pDesc->getDataType() == INT4SCOMPLEX)
   {
      ResultType = INT4SBYTES;
   }
   else if (pDesc->getDataType() == FLT8COMPLEX)
   {
      ResultType = FLT8BYTES;
   }

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Deconvolution_Sharpening_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());

   Service<DesktopServices> pDesktop;
   DeconvolutionDlg dlg(pDesktop->getMainWidget());
   int stat = dlg.exec();
   if (stat != QDialog::Accepted)
   {
	   return true;
   }

   double minGrayValue;
   double maxGrayValue;
   double deltaValue = 0.0;

   int nFilterType = dlg.getCurrentFilterType();
   int windowSize = dlg.getCurrentWindowSize();
   double sigmaVal = dlg.getSigmaValue();
   double gamaVal = dlg.getGamaValue();
   windowSize = (windowSize-1)/2;
   
   if (NULL != pOriginalImage)
   {
	   free(pOriginalImage);
   }
   pOriginalImage = (double *)malloc(sizeof(double)*pDesc->getRowCount()*pDesc->getColumnCount());
   
   double *OrigData = (double *)malloc(sizeof(double)*pDesc->getRowCount()*pDesc->getColumnCount());
   double *NewData  = (double *)malloc(sizeof(double)*pDesc->getRowCount()*pDesc->getColumnCount());
   double *ConvoData = (double *)malloc(sizeof(double)*pDesc->getRowCount()*pDesc->getColumnCount());
   double *pTempData;

   InitializeData(pSrcAcc, pOriginalImage, OrigData, pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType());
   GetGrayScale(&minGrayValue, &maxGrayValue, pDesc->getDataType());
   
   //Perform deconvolution iteratively
   for (int num = 0; num < MAX_ITERATION_NUMBER; num++)
   {
      if (pProgress != NULL)
      {
         pProgress->updateProgress("Deconvolution process", num*100/MAX_ITERATION_NUMBER, NORMAL);
      }
      if (isAborted())
      {
         std::string msg = getName() + " has been aborted.";
         pStep->finalize(Message::Abort, msg);
         if (pProgress != NULL)
         {
            pProgress->updateProgress(msg, 0, ABORT);
         }
         
         free(OrigData);
         free(NewData);
         free(ConvoData);
         
         return false;
      }
      
      deltaValue = DeconvolutionFunc(OrigData, pOriginalImage, NewData, ConvoData, sigmaVal, gamaVal, 
                                     windowSize, pDesc->getRowCount(), pDesc->getColumnCount(), nFilterType, maxGrayValue, minGrayValue);


      pTempData = OrigData;
      OrigData = NewData;
      NewData = pTempData;

	  double errorRate = deltaValue/(maxGrayValue-minGrayValue);
	  if (errorRate < CONVERGENCE_THRESHOLD)
	  {
		  break;
	  }
   }
   
   free(NewData);
   free(ConvoData);


   //Output result
   unsigned int nCount = 0;
   for (int i = 0; i < pDesc->getRowCount(); i++)
   {
       for (int j = 0; j < pDesc->getColumnCount(); j++)		   
	   {		   
		   if (!pDestAcc.isValid())
           {       
		       std::string msg = "Unable to access the cube data.";        
			   pStep->finalize(Message::Failure, msg);
                       
			   if (pProgress != NULL)                      
			   {         
			       pProgress->updateProgress(msg, 0, ERRORS);       
			   }   
			   free(OrigData);                  
			   return false;              
		   }
			   
		   pDestAcc->toPixel(i, j);	
		   switchOnEncoding(ResultType, restoreImageValue, pDestAcc->getColumn(), (OrigData+nCount));
		   nCount++;

	   }
   }
   
   free(OrigData);  


   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   if (pProgress != NULL)
   {
      pProgress->updateProgress("Deconvolution enhancement is complete.", 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Deconvolution enhancement Result", pResultCube.release());

   pStep->finalize();


   return true;
}

Example #28

File: ImageRegistration.cpp Project: felipebetancur/Astronomy-Image-Processing

bool ImageRegistration::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   StepResource pStep("Image Registration", "app", "A2E0FC44-2A31-41EE-90F8-805773D01FCA");
   if (pInArgList == NULL || pOutArgList == NULL)
   {
      return false;
   }
   Progress* pProgress = pInArgList->getPlugInArgValue<Progress>(Executable::ProgressArg());
   //RasterElement* pCube = pInArgList->getPlugInArgValue<RasterElement>(Executable::DataElementArg());

   std::vector<Window*> windows;
   Service<DesktopServices>()->getWindows(SPATIAL_DATA_WINDOW, windows);
   std::vector<RasterElement*> elements;
   for (unsigned int i = 0; i < windows.size(); ++i)
   {
       SpatialDataWindow* pWindow = dynamic_cast<SpatialDataWindow*>(windows[i]);
       if (pWindow == NULL)
       {
           continue;
       }
       LayerList* pList = pWindow->getSpatialDataView()->getLayerList();
       elements.push_back(pList->getPrimaryRasterElement());
   }

   RasterElement* pCube = elements[0];
   RasterElement* pCubeRef = elements[1];
   if ((pCube == NULL) || (pCubeRef == NULL))
   {
      std::string msg = "A raster cube must be specified.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }
   RasterDataDescriptor* pDesc = static_cast<RasterDataDescriptor*>(pCube->getDataDescriptor());
   VERIFY(pDesc != NULL);
   
   EncodingType ResultType = pDesc->getDataType();
   if (pDesc->getDataType() == INT4SCOMPLEX)
   {
      ResultType = INT4SBYTES;
   }
   else if (pDesc->getDataType() == FLT8COMPLEX)
   {
      ResultType = FLT8BYTES;
   }

   FactoryResource<DataRequest> pRequest;
   pRequest->setInterleaveFormat(BSQ);
   DataAccessor pSrcAcc = pCube->getDataAccessor(pRequest.release());

   FactoryResource<DataRequest> pRequestRef;
   pRequestRef->setInterleaveFormat(BSQ);
   DataAccessor pSrcAccRef = pCubeRef->getDataAccessor(pRequestRef.release());

   ModelResource<RasterElement> pResultCube(RasterUtilities::createRasterElement(pCube->getName() +
      "_Image_Registration_Result", pDesc->getRowCount(), pDesc->getColumnCount(), ResultType));
   if (pResultCube.get() == NULL)
   {
      std::string msg = "A raster cube could not be created.";
      pStep->finalize(Message::Failure, msg);
      if (pProgress != NULL) 
      {
         pProgress->updateProgress(msg, 0, ERRORS);
      }
      return false;
   }

   std::vector<int> badValues = pDesc->getBadValues();
   //badValues.push_back(0);
   RasterDataDescriptor* pDescriptor = dynamic_cast<RasterDataDescriptor*>(pResultCube->getDataDescriptor());
   Statistics* pStatistics = pResultCube->getStatistics(pDescriptor->getActiveBand(0));
   pStatistics->setBadValues(badValues);

   FactoryResource<DataRequest> pResultRequest;
   pResultRequest->setWritable(true);
   DataAccessor pDestAcc = pResultCube->getDataAccessor(pResultRequest.release());
   
   nCountMas = 0;
   nCountRef = 0;
   int windowSize = 6;
   double *pBuffer = (double *)calloc(pDesc->getRowCount()*pDesc->getColumnCount(), sizeof(double));

   GetGrayScale(pDesc->getDataType());

   
   for (unsigned int row = 0; row < pDesc->getRowCount(); ++row)
   {
	   if (pProgress != NULL)
       {
           pProgress->updateProgress("Image registration", row * 100 / pDesc->getRowCount(), NORMAL);
       }
       if (isAborted())
       {
          std::string msg = getName() + " has been aborted.";
          pStep->finalize(Message::Abort, msg);
          if (pProgress != NULL)
          {
             pProgress->updateProgress(msg, 0, ABORT);
          }
          return false;
       }
       for (unsigned int col = 0; col < pDesc->getColumnCount(); ++col)
       {
	       locateAllStarPosition(pSrcAcc, pSrcAccRef, row, col, pDesc->getRowCount(), pDesc->getColumnCount(), pDesc->getDataType(), windowSize, pBuffer);
       }
   }

   ModifyCenter(pSrcAcc, pDesc->getDataType(), windowSize, nCountMas, nStarPositionsMas);
   ModifyCenter(pSrcAccRef, pDesc->getDataType(), windowSize, nCountRef, nStarPositionsRef);

   GetAllNeighborStars();
   GetMatchingStars();
   
   GetParameters(pDesc->getRowCount(), pDesc->getColumnCount());
  
   DrawStars(pBuffer, pSrcAccRef, pDesc->getDataType(), matrixT, pDesc->getRowCount(), pDesc->getColumnCount());

   //Output the value 
      for (unsigned int m = 0; m < pDesc->getRowCount(); m++)
      {
	      for (unsigned int n = 0; n < pDesc->getColumnCount(); n++)
	      {
		      if (isAborted())
              {
                  std::string msg = getName() + " has been aborted.";
                  pStep->finalize(Message::Abort, msg);
                  if (pProgress != NULL)
                  {
                      pProgress->updateProgress(msg, 0, ABORT);
                  }
                  return false;
              }
				      
			  if (!pDestAcc.isValid())
              {
                  std::string msg = "Unable to access the cube data.";
                  pStep->finalize(Message::Failure, msg);
                  if (pProgress != NULL) 
                  {
                      pProgress->updateProgress(msg, 0, ERRORS);
                   }
                   return false;
               }

				       
			  switchOnEncoding(ResultType, updatePixel, pDestAcc->getColumn(), pBuffer, m, n, pDesc->getRowCount(), pDesc->getColumnCount());       
			  pDestAcc->nextColumn();
				   
		  }
				   
		  pDestAcc->nextRow();
		  
	  }
   free(pBuffer);
   


   if (!isBatch())
   {
      Service<DesktopServices> pDesktop;

      SpatialDataWindow* pWindow = static_cast<SpatialDataWindow*>(pDesktop->createWindow(pResultCube->getName(),
         SPATIAL_DATA_WINDOW));

      SpatialDataView* pView = (pWindow == NULL) ? NULL : pWindow->getSpatialDataView();
      if (pView == NULL)
      {
         std::string msg = "Unable to create view.";
         pStep->finalize(Message::Failure, msg);
         if (pProgress != NULL) 
         {
            pProgress->updateProgress(msg, 0, ERRORS);
         }
         return false;
      }

      pView->setPrimaryRasterElement(pResultCube.get());
      pView->createLayer(RASTER, pResultCube.get());
   }

   double theta = std::acos(matrixT[0][0])*180.0/3.1415926;

   std::string msg = "Image Registration is complete.\n Translation x = " +  StringUtilities::toDisplayString(round(shiftX)) + ", y = " + 
	                 StringUtilities::toDisplayString(round(shiftY)) + ", rotation = " + StringUtilities::toDisplayString(round(theta)) + " degree";
   if (pProgress != NULL)
   {
	   
       pProgress->updateProgress(msg, 100, NORMAL);
   }

   pOutArgList->setPlugInArgValue("Image Registration Result", pResultCube.release());

   pStep->finalize();


   return true;
}