Ejemplo n.º 1
0
bool DeriveLayer::execute(PlugInArgList* pInArgList, PlugInArgList* pOutArgList)
{
   VERIFY(pInArgList != NULL);
   StepResource pStep("Execute Wizard Item", "app", "56D70072-0716-4506-B70D-9E6BD10C96A3");
   pStep->addProperty("Item", getName());
   mpStep = pStep.get();

   if (!extractInputArgs(pInArgList))
   {
      reportError("Unable to extract input arguments.", "4DB42DD5-2198-4d1e-BBB5-9745D4242C9D");
      return false;
   }

   // Get the view
   SpatialDataView* pView = dynamic_cast<SpatialDataView*>(mpInputLayer->getView());
   if (pView == NULL)
   {
      reportError("Only layers in a spatial data view can be converted.", "{039ac767-e6d5-441b-9b27-bf59cbb9ee9d}");
      return false;
   }

   Layer* pNewLayer = NULL;
   if (mNewLayerName.empty())
   {
      pNewLayer = pView->convertLayer(mpInputLayer, mNewLayerType);
   }
   else
   {
      pNewLayer = pView->deriveLayer(mpInputLayer, mNewLayerType);
      if (pNewLayer != NULL)
      {
         if (!pView->getLayerList()->renameLayer(pNewLayer, mNewLayerName))
         {
            pView->deleteLayer(pNewLayer);
            reportError("Unable to derive a layer with the given name, because another layer "
               "with the same name already exists.", "{1e81e201-624f-4e96-83b5-8ceae01d7c1d}");
            return false;
         }
      }
   }
   if (pNewLayer == NULL)
   {
      reportError("Unable to convert the layer.", "{f09810c2-f2a2-4887-a0f0-6848d74ffd28}");
      return false;
   }

   // Set the output value
   if (pOutArgList != NULL)
   {
      if (!pOutArgList->setPlugInArgValue("Layer", pNewLayer) ||
          !pOutArgList->setPlugInArgValue("Element", pNewLayer->getDataElement()))
      {
         reportError("Could not set the output value!", "3E2591B0-F41B-4de1-9D76-45245F9EF343");
         return false;
      }
   }

   reportComplete();
   return true;
}
Ejemplo n.º 2
0
 void destroyLayer(Layer* pLayer)
 {
    SpatialDataView* pSdv = (pLayer == NULL) ? NULL : dynamic_cast<SpatialDataView*>(pLayer->getView());
    if (pSdv != NULL)
    {
       pSdv->deleteLayer(pLayer);
    }
 }
Ejemplo n.º 3
0
SpatialDataView* ChippingWindow::createChipView() const
{
   if (mpView == NULL)
   {
      return NULL;
   }

   SpatialDataView* pChipView = dynamic_cast<SpatialDataView*>(mpView->copy());
   if (pChipView != NULL)
   {
      vector<std::pair<View*, LinkType> > linkedViews;
      pChipView->getLinkedViews(linkedViews);
      for (unsigned int i = 0; i < linkedViews.size(); ++i)
      {
         if (linkedViews[i].second == NO_LINK)
         {
            continue;
         }

         pChipView->unlinkView(linkedViews[i].first);
      }

      LayerList* pLayerList = pChipView->getLayerList();
      if (pLayerList != NULL)
      {
         vector<Layer*> layers;
         pLayerList->getLayers(layers);
         for (unsigned int i = 0; i < layers.size(); i++)
         {
            Layer* pLayer = layers.at(i);
            if (dynamic_cast<RasterLayer*>(pLayer) == NULL)
            {
               pChipView->deleteLayer(pLayer);
            }
         }
      }
   }

   return pChipView;
}
Ejemplo n.º 4
0
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);
}
Ejemplo n.º 5
0
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);
}