Difference between revisions of "User talk:Haehn"
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${LOW_THRESHOLD}=$const(0.1) | ${LOW_THRESHOLD}=$const(0.1) | ||
${HIGH_THRESHOLD}=$const(1.0) | ${HIGH_THRESHOLD}=$const(1.0) | ||
| − | ${PROPAGATION}=$ | + | ${PROPAGATION}=$range(-20,20,10) |
| − | ${CURVATURE}=$ | + | ${CURVATURE}=$range(50,90,10) |
${ADVECTION}=$const(100) | ${ADVECTION}=$const(100) | ||
${ITERATIONS}=$const(10) | ${ITERATIONS}=$const(10) | ||
Revision as of 13:09, 22 January 2010
Home < User talk:Haehnmy notes..
- this code works locally:
"import sys; from Slicer import slicer; volNode=slicer.VolumesGUI.GetLogic().AddArchetypeVolume('/home/haehn/data/Image00_LCA.nrrd','Liver',0); matrix = slicer.vtkMatrix4x4(); volNode.GetIJKToRASMatrix(matrix);
outputNode=slicer.MRMLScene.CreateNodeByClass('vtkMRMLScalarVolumeNode'); volumeNode=slicer.MRMLScene.AddNode(outputNode); volumeNode.SetAndObserveImageData(volNode.GetImageData()); volumeNode.SetIJKToRASMatrix(matrix); volumeNode.SetModifiedSinceRead(1); slicer.VolumesGUI.GetLogic().SaveArchetypeVolume('/home/haehn/data/test.nrrd',volumeNode);"
- remote Frangi:
${SIGMA_MIN}=$const(1.0)
${SIGMA_MAX}=$const(5.0)
${SIGMA_STEPS}=$const(10)
${ALPHA}=$range(0.1,0.5,0.1)
${BETA}=$range(500.0,1500.0,500.0)
${GAMMA}=$range(300.0,1000.0,100.0)
${FILE}=$const(00)
${TYPE}=$const(RCA)
${INPUT}=$const(/Volumes/DATA2/dhaehn/cutted/Image${FILE}_${TYPE}.nrrd)
${OUTPUT}=$const(/Volumes/DATA2/dhaehn/gwe-results/${FILE}-${TYPE}/${FILE}-${TYPE}-out-${SIGMA_MIN}-${SIGMA_MAX}-N${SIGMA_STEPS}-${ALPHA}-${BETA}-${GAMMA})
${SLICER_HOME}/Slicer3 --no_splash --evalpython "import sys; from Slicer import slicer; sys.path.append(str(slicer.Application.GetExtensionsInstallPath())+'/'+str(slicer.Application.GetSvnRevision())+'/VMTKVesselEnhancement/VMTKVesselEnhancement'); from SlicerVMTKVesselEnhancementGUI import *; hiddengui = VMTKVesselEnhancement(); from SlicerVMTKVesselEnhancementLogic import *; vesselness=SlicerVMTKVesselEnhancementLogic(hiddengui); volNode=slicer.VolumesGUI.GetLogic().AddArchetypeVolume('${INPUT}','Vessels',0); matrix = slicer.vtkMatrix4x4(); volNode.GetIJKToRASMatrix(matrix); from datetime import *; s=datetime.now(); outVolumeData = vesselness.ApplyFrangiVesselness(volNode.GetImageData(),${SIGMA_MIN},${SIGMA_MAX},${SIGMA_STEPS},${ALPHA},${BETA},${GAMMA}); e=datetime.now(); delta=e-s; outputNode=slicer.MRMLScene.CreateNodeByClass('vtkMRMLScalarVolumeNode'); volumeNode=slicer.MRMLScene.AddNode(outputNode); volumeNode.SetAndObserveImageData(outVolumeData); volumeNode.SetIJKToRASMatrix(matrix); volumeNode.SetModifiedSinceRead(1); slicer.VolumesGUI.GetLogic().SaveArchetypeVolume('${OUTPUT}--'+str(delta).replace(':','-')+'.nrrd',volumeNode);Slicer.tk.eval('exit 0');"
- remote levelset:
${SIGMA_MIN}=$const(1.0)
${SIGMA_MAX}=$const(5.0)
${SIGMA_STEPS}=$const(10)
${ALPHA}=$range(0.1,0.5,0.1)
${BETA}=$range(500.0,1500.0,500.0)
${GAMMA}=$range(300.0,1000.0,100.0)
${FILE}=$const(00)
${TYPE}=$const(RCA)
${INPUT}=$const(/Volumes/DATA2/dhaehn/cutted/Image${FILE}_${TYPE}.nrrd)
${VESSELNESS_NAME}=$const(${FILE}-${TYPE}/${FILE}-${TYPE}-out-${SIGMA_MIN}-${SIGMA_MAX}-N${SIGMA_STEPS}-${ALPHA}-${BETA}-${GAMMA})
${INPUT_VESSELNESS}=$const(/Volumes/DATA2/dhaehn/gwe-results/${VESSELNESS_NAME}*.nrrd)
${SEED_X}=$const(1)
${SEED_Y}=$const(1)
${SEED_Z}=$const(1)
${LOW_THRESHOLD}=$const(0.1)
${HIGH_THRESHOLD}=$const(1.0)
${PROPAGATION}=$range(-20,20,10)
${CURVATURE}=$range(50,90,10)
${ADVECTION}=$const(100)
${ITERATIONS}=$const(10)
${OUTPUT_A}=$const(/Volumes/DATA2/dhaehn/gwe-results-polydata/${VESSELNESS_NAME}-FM-${LOW_THRESHOLD}-${HIGH_THRESHOLD}--)
${OUTPUT_B}=$const(-GAC-${PROPAGATION}-${CURVATURE}-${ADVECTION}-N${ITERATIONS}--)
${SLICER_HOME}/bin/Slicer3-real --no_splash --evalpython "import sys; from Slicer import slicer;
sys.path.append(str(slicer.Application.GetExtensionsInstallPath())+'/'+str(slicer.Application.GetSvnRevision())+'/VMTKEasyLevelSetSegmentation/VMTKEasyLevelSetSegmentation');
from VMTKEasyLevelSetSegmentationGUI import *;
hiddengui = VMTKEasyLevelSetSegmentationGUI();
from VMTKEasyLevelSetSegmentationLogic import *;
levelset = VMTKEasyLevelSetSegmentationLogic(hiddengui);
volNode=slicer.VolumesGUI.GetLogic().AddArchetypeVolume('${INPUT}','Originals',0);
import glob;
vesselnessFile=glob.glob('${INPUT_VESSELNESS}');
vesselnessNode=slicer.VolumesGUI.GetLogic().AddArchetypeVolume(vesselnessFile[0],'Vessels',0);
matrix = slicer.vtkMatrix4x4(); volNode.GetIJKToRASMatrix(matrix);
rasMatrix = slicer.vtkMatrix4x4(); volNode.GetRASToIJKMatrix(rasMatrix);
image = volNode.GetImageData();
vesselImage = vesselnessNode.GetImageData();
seedList = slicer.vtkIdList();
targetList = slicer.vtkIdList();
seedPt = [${SEED_X},${SEED_Y},${SEED_Z},1];
ijkSeedPt = rasMatrix.MultiplyPoint(*seedPt);
seedList.InsertNextId(vesselImage.ComputePointId(int(ijkSeedPt[0]),int(ijkSeedPt[1]),int(ijkSeedPt[2])));
from datetime import *;
fm_s = datetime.now();
fm = levelset.ExecuteFM(vesselImage,${LOW_THRESHOLD},${HIGH_THRESHOLD},seedList,targetList);
fm_e = datetime.now();
delta_fm=fm_e-fm_s;
gac_s=datetime.now();
gac = levelset.ExecuteGAC(image,fm,${ITERATIONS},${PROPAGATION},${CURVATURE},${ADVECTION},'geodesic');
gac_e=datetime.now();
delta_gac=gac_e-gac_s;
mc_s=datetime.now();
mc = levelset.MarchingCubes(gac,matrix,0.0);
mc_e=datetime.now();
delta_mc=mc_e-mc_s;
outputNode=slicer.MRMLScene.CreateNodeByClass('vtkMRMLModelNode');
modelNode=slicer.MRMLScene.AddNode(outputNode);
modelNode.SetAndObservePolyData(mc); modelNode.SetModifiedSinceRead(1);
slicer.ModelsGUI.GetLogic().SaveModel('${OUTPUT_A}'+str(delta_fm).replace(':','-')+'${OUTPUT_B}'+str(delta_gac).replace(':','-')+'-MC--'+str(delta_mc).replace(':','-')+'.vtk',modelNode);"
