X-Git-Url: https://git.creatis.insa-lyon.fr/pubgit/?a=blobdiff_plain;f=itk%2FclitkBackProjectImageFilter.txx;h=befc8822013cb8543d7bbc0d3ece59b417f84b31;hb=8a1ec8f0cfd3c6b4cd29ea5456cbdf598f7f0b06;hp=65ac8017d4cb98b2009b573f3de03afb07e694db;hpb=765020625fbc092d283e221e36c83e60a1844cb7;p=clitk.git

diff --git a/itk/clitkBackProjectImageFilter.txx b/itk/clitkBackProjectImageFilter.txx
index 65ac801..befc882 100644
--- a/itk/clitkBackProjectImageFilter.txx
+++ b/itk/clitkBackProjectImageFilter.txx
@@ -20,6 +20,7 @@
 #include "clitkBackProjectImageFilter.h"
 #include "itkContinuousIndex.h"
 #include "vnl/vnl_math.h"
+#include "itkLinearInterpolateImageFunction.h"
 
 namespace clitk
 {
@@ -39,6 +40,8 @@ namespace clitk
     this->m_SourceToAxis = 1000.0;
     this->m_EdgePaddingValue = itk::NumericTraits<OutputPixelType>::Zero;//density images
     this->m_RigidTransformMatrix.SetIdentity();
+    this->m_PanelShift[0] = 0.;
+    this->m_PanelShift[1] = 0.;
 
     //Parameters for output
     this->m_OutputSpacing.Fill(1);
@@ -304,8 +307,6 @@ namespace clitk
   {
     //Projection pointer
     InputImageConstPointer inputPtr=this->GetInput();
-    InputPixelType * beginPtr=const_cast<InputPixelType *>(this->GetInput()->GetBufferPointer());
-    InputPixelType * pp;
     
     //Volume pointer
     OutputImagePointer outputPTr= this->GetOutput();
@@ -325,8 +326,6 @@ namespace clitk
     OutputIndexType oIndex;
     ContinuousInputIndexType iIndex;
     InputSizeType inputSize=inputPtr->GetLargestPossibleRegion().GetSize();
-    double dx,dy,dxm,dym;
-    int lx, ly;
 
     //Get the first output coordinate
     oIndex=iterator.GetIndex();//costly but only once a thread
@@ -337,9 +336,13 @@ namespace clitk
        
     //Compute the first input coordinate (invert Y/X)
     homInputPoint= (m_ProjectionMatrix * homOutputPoint);
-    iPoint[0]=-homInputPoint[0]/homInputPoint[2];
-    iPoint[1]=homInputPoint[1]/homInputPoint[2];
-    
+    iPoint[0]=-homInputPoint[0]/homInputPoint[2] + m_PanelShift[0];
+    iPoint[1]=homInputPoint[1]/homInputPoint[2] + m_PanelShift[1];
+
+    typedef itk::LinearInterpolateImageFunction< InputImageType, double > InterpolatorType;
+    typename InterpolatorType::Pointer interpolator = InterpolatorType::New();
+    interpolator->SetInputImage(this->GetInput());
+
     //Run over all output voxels
     for (unsigned int i=0; i<outputSizeForThread[2]; i++)
       {
@@ -347,25 +350,15 @@ namespace clitk
 	  {
 	    for (unsigned int k=0; k<outputSizeForThread[0]; k++)
 	      {
-		iPoint[0]=homInputPoint[0]/homInputPoint[2];
-		iPoint[1]=homInputPoint[1]/homInputPoint[2];
+		iPoint[0]=-homInputPoint[0]/homInputPoint[2] + m_PanelShift[0];
+		iPoint[1]=homInputPoint[1]/homInputPoint[2] + m_PanelShift[1];
 
 		//Check wether inside, convert to index (use modified with correct origin)
-		if( m_ModifiedInput->TransformPhysicalPointToContinuousIndex(iPoint, iIndex) )
-		  {
-		    //Own (fast bilinear) interpolation   
-		    lx = (int)floor(iIndex[0]); dx = iIndex[0]-lx; dxm = 1.-dx;
-		    ly = (int)floor(iIndex[1]); dy = iIndex[1]-ly; dym = 1.-dy;
-		    pp = beginPtr + ly*inputSize[0]+lx;
-		    value =static_cast<OutputPixelType>( ( dxm  * dym*(double)(*pp) 
-							   + dx * dym*(double)(*(pp+1)) 
-							   + dxm* dy *(double)(*(pp + inputSize[0]))
-							   + dx * dy *(double)(*(pp + inputSize[0]+1))) );
-	    
-		  }
+		if (m_ModifiedInput->TransformPhysicalPointToContinuousIndex(iPoint, iIndex) && interpolator->IsInsideBuffer(iIndex))
+                    value = interpolator->EvaluateAtContinuousIndex(iIndex);
 		//Outside: padding value
-		else value=m_EdgePaddingValue;
-		
+		else
+                  value=m_EdgePaddingValue;
 		//Set it
 		iterator.Set(value);