Merge branch 'develop' into ci_hidden_key

Modules/Applications/AppProjection/app/otbConvertCartoToGeoPoint.cxx

@@ -56,7 +56,6 @@ private:
     SetDescription("Convert cartographic coordinates to geographic ones.");
 
     // Documentation
-    SetDocName("Cartographic to geographic coordinates conversion");
     SetDocLongDescription("This application computes the geographic coordinates from cartographic ones. User has to give the X and Y coordinate and the cartographic projection (see mapproj parameter for details).");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppProjection/app/otbConvertSensorToGeoPoint.cxx

@@ -55,7 +55,6 @@ private:
     SetDescription("Sensor to geographic coordinates conversion.");
 
     // Documentation
-    SetDocName("Convert Sensor Point To Geographic Point");
     SetDocLongDescription("This Application converts a sensor point of an input image to a geographic point using the Forward Sensor Model of the input image.");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppProjection/app/otbGenerateRPCSensorModel.cxx

@@ -62,7 +62,6 @@ private:
     SetName("GenerateRPCSensorModel");
     SetDescription("Generate a RPC sensor model from a list of Ground Control Points.");
 
-    SetDocName("Generate a RPC sensor model");
     SetDocLongDescription( "This application generates a RPC sensor model from a list of Ground Control Points. "
                                    "At least 20 points are required for estimation without elevation support, "
                                    "and 40 points for estimation with elevation support. "

Modules/Applications/AppProjection/app/otbGridBasedImageResampling.cxx

@@ -109,7 +109,6 @@ private:
     SetName("GridBasedImageResampling");
     SetDescription("Resamples an image according to a resampling grid");
 
-    SetDocName("Grid Based Image Resampling");
     SetDocLongDescription("This application allows performing image resampling from an input resampling grid.");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppProjection/app/otbImageEnvelope.cxx

@@ -55,7 +55,6 @@ private:
     SetDescription("Extracts an image envelope.");
 
     // Documentation
-    SetDocName("Image Envelope");
     SetDocLongDescription("Build a vector data containing the image envelope polygon. "
       "Useful for some projection, you can set the polygon with more points with the sr parameter. "
       "This filter supports user-specified output projection. "

Modules/Applications/AppProjection/app/otbObtainUTMZoneFromGeoPoint.cxx

@@ -57,7 +57,6 @@ private:
     SetDescription("UTM zone determination from a geographic point.");
 
     // Documentation
-    SetDocName("Obtain UTM Zone From Geo Point");
     SetDocLongDescription("This application returns the UTM zone of an input geographic point.");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppProjection/app/otbOrthoRectification.cxx

@@ -91,7 +91,6 @@ private:
   {
     SetName("OrthoRectification");
     SetDescription("This application allows ortho-rectifying optical and radar images from supported sensors.");
-    SetDocName("Ortho-rectification");
     std::ostringstream oss;
     oss<<"This application uses inverse sensor modelling combined with a choice of interpolation functions to resample a sensor geometry image into a ground geometry regular grid. ";
     oss<<"The ground geometry regular grid is defined with respect to a map projection (see map parameter). The application offers several modes to estimate the output grid parameters (origin and ground sampling distance), including automatic estimation of image size, ground sampling distance, or both, from image metadata, user-defined ROI corners, or another ortho-image.";

Modules/Applications/AppProjection/app/otbRefineSensorModel.cxx

@@ -61,7 +61,6 @@ private:
     SetName("RefineSensorModel");
     SetDescription("Perform least-square fit of a sensor model to a set of tie points");
 
-    SetDocName("Refine Sensor Model");
     SetDocLongDescription("This application reads a geom file containing a sensor model and a text file containing a list of ground control point, and performs a least-square fit of the sensor model adjustable parameters to these tie points. It produces an updated geom file as output, as well as an optional ground control points based statistics file and a vector file containing residues. The output geom file can then be used to ortho-rectify the data more accurately. Plaease note that for a proper use of the application, elevation must be correctly set (including DEM and geoid file). The map parameters allows one to choose a map projection in which the accuracy will be estimated in meters.");
 
     AddDocTag(Tags::Geometry);

Modules/Applications/AppProjection/app/otbRigidTransformResample.cxx

@@ -85,7 +85,6 @@ private:
     SetName("RigidTransformResample");
     SetDescription("Resample an image with a rigid transform");
     // Documentation
-    SetDocName("Image resampling with a rigid transform");
     SetDocLongDescription("This application performs a parametric transform on the input image. Scaling, translation and rotation with scaling factor are handled."
         " Parameters of the transform is expressed in physical units, thus particular attention must be paid on pixel size (value, and sign). Moreover transform is expressed from input space to output space (on the contrary ITK Transforms are expressed form output space to input space). ");
     SetDocLimitations("None");

Modules/Applications/AppProjection/app/otbSuperimpose.cxx

@@ -87,7 +87,6 @@ private:
     SetDescription("Using available image metadata, project one image onto another one");
 
     // Documentation
-    SetDocName("Superimpose sensor");
     SetDocLongDescription("This application performs the projection of an image into the geometry of another one.");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppProjection/app/otbVectorDataReprojection.cxx

@@ -64,7 +64,6 @@ private:
   {
     SetName("VectorDataReprojection");
     SetDescription("Reproject a vector data using support image projection reference, or a user specified map projection");
-    SetDocName("Vector Data reprojection");
 
     SetDocLongDescription(
         "Reproject vector data using a support image as projection reference or to a user given map projection. "

Modules/Applications/AppSARCalibration/app/otbSARBurstExtraction.cxx

@@ -50,7 +50,6 @@ private:
     SetDescription("This application performs a burst extraction by keeping only lines and samples of a required burst.");
 
     // Documentation
-    SetDocName("SAR Burst Extraction");
     SetDocLongDescription("Sentinel1 IW SLC products are composed of several burst overlapping in"
                           " azimuth time for each subswath, separated by black lines [1]. The burst"
                           " extraction consist in extracting a single burst, by selecting only lines" 

Modules/Applications/AppSARCalibration/app/otbSARCalibration.cxx

@@ -51,7 +51,6 @@ private:
     SetDescription("Perform radiometric calibration of SAR images. Following sensors are supported: TerraSAR-X, Sentinel1 and Radarsat-2.Both Single Look Complex(SLC) and detected products are supported as input.");
 
     // Documentation
-    SetDocName("SAR Radiometric calibration");
     SetDocLongDescription("The objective of SAR calibration is to provide imagery in which the pixel values can be directly related to the radar backscatter of the scene. This application allows computing Sigma Naught (Radiometric Calibration) for TerraSAR-X, Sentinel1 L1 and Radarsat-2 sensors. Metadata are automatically retrieved from image products.The application supports complex and non-complex images (SLC or detected products).");
     SetDocLimitations("None");
     SetDocAuthors("OTB-Team");

Modules/Applications/AppSARCalibration/app/otbSARConcatenateBursts.cxx

@@ -58,7 +58,6 @@ private:
     SetDescription("Concatenate a list of Bursts to provide a whole SAR Deburst Image.");
 
     // Documentation
-    SetDocName("SAR Concatenate Bursts");
     SetDocLongDescription("This application performs a burst concatenation and provides a SAR Deburst Image. "
 			  "It reads the input image list (single bursts) "
 			  "and generates a whole SAR image with deburst operations.");

Modules/Applications/AppSARCalibration/app/otbSARDeburst.cxx

@@ -50,7 +50,6 @@ private:
     SetDescription("This application performs deburst of Sentinel1 IW SLC images by removing redundant lines.");
 
     // Documentation
-    SetDocName("SAR Deburst");
     SetDocLongDescription("Sentinel1 IW SLC products are composed of several burst overlapping in"
                           " azimuth time for each subswath, separated by black lines [1]. The deburst"
                           " operation consist in generating a continuous image in terms of azimuth"

Modules/Applications/AppSARDecompositions/app/otbSARDecompositions.cxx

@@ -81,7 +81,6 @@ private:
     SetDescription("From one-band complex images (each one related to an element of the Sinclair matrix), returns the selected decomposition.");
 
     // Documentation
-    SetDocName("SARDecompositions");
     SetDocLongDescription(
         "From one-band complex images (HH, HV, VH, VV), returns the selected decomposition.\n \n"
         "All the decompositions implemented are intended for the mono-static case (transmitter and receiver are co-located).\n"

Modules/Applications/AppSARPolarMatrixConvert/app/otbSARPolarMatrixConvert.cxx

@@ -84,7 +84,6 @@ private:
     SetDescription("This applications allows converting classical polarimetric matrices to each other.");
 
     // Documentation
-    SetDocName("SARPolarMatrixConvert");
     SetDocLongDescription(
 
         "This application allows converting classical polarimetric matrices to each other.\n"

Modules/Applications/AppSARPolarSynth/app/otbSARPolarSynth.cxx

@@ -50,7 +50,6 @@ private:
     SetDescription("Gives, for each pixel, the power that would have been received by a SAR system with a basis different from the classical (H,V) one (polarimetric synthetis).");
 
     // Documentation
-    SetDocName("SARPolarSynth");
     SetDocLongDescription("This application gives, for each pixel, the power that would have been received by a SAR system with a basis different from the classical (H,V) one (polarimetric synthetis).\n" 
 						  "The new basis A and B are indicated through two Jones vectors, defined by the user thanks to orientation (psi) and ellipticity (khi) parameters.\n"
 						  "These parameters are namely psii, khii, psir and khir. The suffixes (i) and (r) refer to the transmitting antenna and the receiving antenna respectively.\n"

Modules/Applications/AppSARUtils/app/otbComputeModulusAndPhase.cxx

@@ -61,7 +61,6 @@ private:
     SetName("ComputeModulusAndPhase");
     SetDescription("This application computes the modulus and the phase of a complex SAR image or an image with 2 components (real and imaginary parts).");
 
-    SetDocName("Compute Modulus and Phase");
     SetDocLongDescription(
       "This application computes the modulus and the phase of a "
       "complex SAR image. The input should be a single band image with "

Modules/Applications/AppSARUtils/app/otbDespeckle.cxx

@@ -60,7 +60,6 @@ private:
     SetDescription("Perform speckle noise reduction on SAR image.");
 
     // Documentation
-    SetDocName("Despeckle");
     SetDocLongDescription("SAR images are affected by speckle noise that inherently exists in and which"
      " degrades the image quality. It is caused by the coherent nature of"
      " back-scattered waves from multiple distributed targets. It is locally strong"