Documentation/Labs/Surface Toolbox update
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Contents
Overview
As part of the SALT project we would like to revamp some of the existing functionality in MeshMath into the SurfaceToolbox. We will be hiring a summer intern to work on this over a couple of months this summer.
Team
- JC Fillon-Robin
- Bea Paniagua
- Jared Vicory
- Andras Lasso
- TBD engineer
Definitions
- KWMeshVisu: Legacy mesh viewer from the Styner Lab.
- Types of Mesh Operations:
- Multiple Mesh (2+)
- Single Mesh
- MeshToVolume
- MeshScalar to Mesh
- MeshScalar to MeshScalar
- MeshScalar Operation
Initial discussions
We will be potentially implementing individual CLIs for each functionality in MeshMath, and those will be plugged into the Surface Toolbox.
Current MeshMath functionality
Name | Description | Type | Keep | Note |
---|---|---|---|---|
subtract | Subtract mesh from inputmesh, write a KWMeshVisu readable text file | PairWiseMesh | This functionality is currently available through ModelToModelDistance | |
magnitude | Magnitude of the input metaArray file (mvh/mva) and writes a KWMeshVisu readable file | ? | It seems this is very specific to a certain application | |
scaleMVA | Scales the input metaArray file (mvh/mva) and writes a KWMeshVisu readable file | ? | It seems this is very specific to a certain application | |
scaleMesh | Scales the input mesh file | SingleMesh | ||
avgMesh | Compute the average mesh from inputmesh file1, file2... | MultipleMesh | ||
ave | Compute the average vector field from file1, file2... generated with -substract | MultipleMesh / ScalarMesh Operator | Turn into a new MeshScalar operator. Given several Meshes with MeshScalars that are named the same way, it will allow averaging them and creating a new scalar map. | |
normave | Works as the \"-ave\" option, but the average vector are projected on the normal at each point | MultipleMesh / ScalarMesh Operator | Turn into a new MeshScalar operator. Given several Meshes with MeshScalars that are named the same way, it will allow averaging them and creating a new scalar map. | |
InvVect | Invert all the vectors created with the -substract option and write a KWMeshVisu readable file | MeshScalar Operation | ||
magdir | Compute the signed magnitude of each of the vector from the vector field.(+ if in the normal direction, - otherwise) | SingleMesh | This functionality is currently available through ModelToModelDistance | |
magNormdir | Compute the signed magnitude of the normal projection of the vector field | SingleMesh | This functionality is currently available through ModelToModelDistance | |
applyVec | Deforme the mesh according to the vector field specified as input | SingleMesh | ||
meshValues | Find the points and cells in a mesh. The outputfile is a textfile with the values | SingleMesh | Export through CSV | |
- Type: Single Mesh
- To-do: KEEP. Export through CSV
avgGaussMesh <Meshfile1> <Meshfile2> ... -gaussMeshPara <mean>,<stdev>,<val1>,<val2>,... Compute the gaussian average for mesh files.
- Type: Multiple Mesh
- To-do: KEEP.
std::cout << " << std::endl; std::cout << " The first parameter is the average, then the standard deviation of the Gaussian model and the rest are the values associated with the files" << std::endl; std::cout << " -avgGaussKWM <txtfile1> <txtfile2>... -gaussKWMPara <mean>,<stdev>,<val1>,<val2>,... " << std::endl; std::cout << " Compute the gaussian average for KWMeshVisu files." << std::endl; std::cout << " The first parameter is the average, then the standard deviation of the Gaussian model and the rest are the values associated with the files" << std::endl; std::cout << " -alignMesh <Meshfile1> <Meshfile2>... Align all of the meshes to the inputmesh (== MeshFile0) using Procrustes alignment [-scalingOn] " << endl; //bp 2016 std::cout << " -alignMeshICP <Meshfile1> <Meshfile2>... Align all of the meshes to the inputmesh (== MeshFile0) using IterativeClosestPoints (no correspondence required) " << endl; //bp 2016 std::cout << " -BadTriangle <thresh value> [-correctMesh correctFilename] " << std::endl; std::cout << " Find the bad triangles in a Mesh. The <thresh value> is the value of the threshFactor to calculate the standard deviation for the bad triangles. The output is a KWMeshVisu text file with the values of the average of the triangles of the mesh " << std::endl; std::cout << " To have a new Mesh with the correct triangles -correctMesh " << std::endl; std::cout << " -extraction extractFilename [-extractClosest] [-nn]" << std::endl; std::cout << " To extract an attribute.The Input is the Mesh, the extractFilename is the attribute image and the Output is a KWMeshVisu text file with the attribute extraction" << std::endl; std::cout << " [-extractClosest]: extract closest attribute" << std::endl; std::cout << " [-nn]: nearest neighbor interpolation (default: linear)" << std::endl; std::cout << " -value <file1> <file2>... " << std::endl; std::cout << " Extract the 5th column from a textfile and write a KWMeshVisu file with the values obtained" << std::endl; std::cout << " -subKWM <textname> Difference between 2 KWMeshVisu files" << std::endl; std::cout << " -MaxColor <textfile>... Compare each point in every files, find a max for every points, keep 5% near the max, the other values will be 0" << std::endl; std::cout << " -dist_absolute <textfile>,<textfile>... -result_absolute <textfile>,<textfile>... Absolute distance map between KWMeshVisu files" << std::endl; std::cout << " -dist_relative <textfile>,<textfile>... -result_relative <textfile>,<textfile>... Relative distance map between KWMeshVisu files (values between -1 & 1)" << std::endl; std::cout << " -label <textfile> Separate every labels, find the mean..." << std::endl; std::cout << " -color -val <number_of_label>,<value_label>... -oldval <number_of_old_label>,<old_value_label>..." << std::endl; std::cout << " To change the value of labels to see the evolution with KWMeshVisu. " << std::endl; std::cout << " Value_label is when the label grow up. " << std::endl; std::cout << " Old_value_label is for the label wich has already grown up." << std::endl; std::cout << " -first <textfile>... Convert a column file into a line file with a comma between each value" << std::endl; // cchou MC2Origin std::cout << " -MC2Origin Translate the Center of Mass to the Origin" << std::endl; // bp2009 StatsKWM std::cout << " -avgOneKWM Computes the avg of an input KWMeshVisu readable file" << std::endl; std::cout << " -medianOneKWM Computes the min of an input KWMeshVisu readable file" << std::endl; std::cout << " -minOneKWM Computes the min of an input KWMeshVisu readable file" << std::endl; std::cout << " -maxOneKWM Computes the max of an input KWMeshVisu readable file" << std::endl; std::cout << " -per1OneKWM Computes the 1% percentile of an input KWMeshVisu readable file" << std::endl; std::cout << " -per99OneKWM Computes the 99% percentile of an input KWMeshVisu readable file" << std::endl; // bp2009 StatsKWM // bp2009 FillHole std::cout << " -FillHole Fills up a hole in a open mesh." << std::endl; std::cout << " If more than one hole exists, this operation might have to be repeated." << std::endl; // bp2009 FillHole // bp2009 BordersOut std::cout << " -BordersOut Outputs the borders of a mesh (if there)." << std::endl; // bp2009 BordersOut // bp2009 IsOpen std::cout << " -IsOpen Gives back an integer defining whether the mesh is open or not" << std::endl; // bp2009 IsOpen // bp2009 CleanMesh std::cout << " -CleanMesh Re-mesh the input mesh and gives back a new clean mesh without degenerated triangles" << std::endl; // bp2009 CleanMesh // bp2009 SmoothMesh std::cout << " -SmoothMesh iterations Gives back a Laplacian smoothed surface" << std::endl; std::cout << " Iterations defines how many times the Laplacian is applied." << std::endl; // bp2009 SmoothMesh // bp2009 FilterNormals std::cout << " -FilterNormals direction <MeshFileVTK> <MeshFileVTKOut> ... Changes homogeneously normals of the polygons in a mesh" << std::endl; std::cout << " direction= [1] normals outwards [-1] normals inwards" << std::endl; // bp2009 FilterNormals // bp2009 StatsROI std::cout << " -statsROI <txtROIFileIn> Process a KWMeshVisu file, given a ROI Mask" << std::endl; std::cout << " Outputs a new KWMeshVisu only with the info in the mask" << std::endl; // bp2009 StatsROI // bp2009 KWMtoPolyData std::cout << " -KWMtoPolyData <txtFileIn> <nameScalarField> Writes a KWM scalar field (N Dimensions) into a PolyData Field Data Scalar to visualize in Slicer" << std::endl; // bp2009 KWMtoPolyData std::cout << " -FSAscData <FreeSurferASCIIfile> <nameScalarField> Extracts a curvature/thickness etc information from a FreeSurfer style scalar file and adds it as attribute to the vtk mesh for visualization. FS format is line-by-line, no header, with each line 'point-id vertex-x vertex-y vertex-z scalar-prop' " << std::endl; // styner2015 FSAscData std::cout << " -significanceLevel <double> the min Pvalue for the Pval ColorMap " << std::endl;
// bp2009 ProcessROI std::cout << " -processROI <txtROIFileIn> <MeshFileIn> ... [TEMP - do not know where to put this]" << std::endl; std::cout << " Gets stats for a distances ROI map" << std::endl; // bp2009 ProcessROI std::cout << " -surfaceArea <AttributeFile> Computes surface area in a txt file" << std::endl; std::cout << " -lobarSurfaceArea <ParcellationAttributeFile> Computes lobar surface area (output: csv file)"<<std::endl; std::cout << " -variance <AttributeFile2> <AttributeFile3>... Compute variance across population" << std::endl; // bp2010 GetCurvatures std::cout << " -GetCurvatures <txtFileOut_C> <txtFileOut_S> <txtFileOut_Gauss> <txtFileOut_mean>... Gets an assorted set of curvature measurements:" << std::endl; std::cout << " Koenderink curvature values for an input mesh (shape index = S, curvedness = C), Gaussian Curvature and Mean Curvature" << std::endl; // bp2010 GetCurvatures // bp2010 particleConsistency std::cout << " -particleConsistency <vtkFileIn_1> <lptsFileIn_1> ... <vtkFileIn_n> <lptsFileIn_n> ... Generates new particle files where fliped particles does not appear" << std::endl; // bp2010 particleConsistency // bp2010 GetDirectionFeatures std::cout << " -GetDirectionFeatures ... Generates three KWM loadable files that have directionality features with respect to X, Y and Z directions" << std::endl; // bp2010 GetDirectionFeatures std::cout << " -closestPoint <InputAttributeFile1> <InputMesh2> Computes interpolated attribute file (output file) for second mesh using closest point interpolation between two input meshes" << std::endl; std::cout << " -extractVertices <YLocationAttributeFile.txt> <ZLocationAttributeFile.txt> Extract points and write 3 different files listing respectively X, Y and Z values" << std::endl; std::cout << " -mean <AttributeFile2> <AttributeFile3>... Compute mean scalar attribute file (assuming same number of vertices)" << std::endl; //cx2011 cart2bary std::cout << " -cart2bary <vtkPointFileIn> Project each point in <vtkPointFileIn> onto the <inputmesh> and then calculate the Barycentric coordinate of the projected point, output to <OutputFileName>" << std::endl;
//bp2011 std::cout << " -attSTD <attribute_file2> <attribute_file2> ...<attribute_fileN> ... Compute std for a collection of vector or scalar files" << std::endl; std::cout << " -VTKtolpts ... Create a particle file out of a triangulated VTK mesh" << std::endl; //bp2012 std::cout << " -relaxPolygons iterations... Mesh relaxation based in vtkWindowedSincPolyDataFilter" << std::endl; std::cout << " -decimateMesh <target reduction> ... Mesh decimation, reducing the number of points. Target reduction is a value from 0..1 that indicates in what % vertices should be reduced" << std::endl; //mst2013 std::cout << " -listPointData lists info about all the VTK point Data in the vtk file" << std::endl; std::cout << " -PointDataOp <name> <op> <val> <name>: name of point data, " << std::endl
<< " <op>: [threshBelow | sub] threshBelow: set to 0 all data below <value>, sub: subtract value" << std::endl;
//bp2013 std::cout << " -translateMesh <tx_DimX> <tx_DimY> <tx_DimZ> , translates a mesh for a given amount " << std::endl; //bp2015 std::cout << " -lookupPointData <csv_lookup> <scalar_field_name>, substitutes scalar values in a given scalar field based on an input lookup " << std::endl; //bp2016 std::cout << " -volumePolyData, provides volume count for the PolyData through the std output. NOTE: Only in closed surfaces." << std::endl; std::cout << " -verbose Verbose output" << std::endl; return 0; }
Path forward
Testing data
TBD