EMAN::TestImageGaussian Class Reference

Replace a source image as a Gaussian Blob. More...

#include <processor.h>

Inheritance diagram for EMAN::TestImageGaussian:

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Collaboration diagram for EMAN::TestImageGaussian:

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List of all members.

Public Member Functions

virtual void process_inplace (EMData *image)
 To process an image in-place.
virtual string get_name () const
 Get the processor's name.
virtual string get_desc () const
 Get the descrition of this specific processor.
virtual TypeDict get_param_types () const
 Get processor parameter information in a dictionary.

Static Public Member Functions

static ProcessorNEW ()

Static Public Attributes

static const string NAME = "testimage.gaussian"

Detailed Description

Replace a source image as a Gaussian Blob.

Parameters:
sigma sigma value for this Gaussian blob
axis specify a major axis for asymmetric features
c distance between focus and the center of an ellipse

Definition at line 6167 of file processor.h.


Member Function Documentation

virtual string EMAN::TestImageGaussian::get_desc (  )  const [inline, virtual]

Get the descrition of this specific processor.

This function must be overwritten by a subclass.

Returns:
The description of this processor.

Implements EMAN::Processor.

Definition at line 6177 of file processor.h.

06178                 {
06179                         return "Replace a source image as a Gaussian Blob";
06180                 }

virtual string EMAN::TestImageGaussian::get_name (  )  const [inline, virtual]

Get the processor's name.

Each processor is identified by a unique name.

Returns:
The processor's name.

Implements EMAN::Processor.

Definition at line 6172 of file processor.h.

References NAME.

06173                 {
06174                         return NAME;
06175                 }

virtual TypeDict EMAN::TestImageGaussian::get_param_types (  )  const [inline, virtual]

Get processor parameter information in a dictionary.

Each parameter has one record in the dictionary. Each record contains its name, data-type, and description.

Returns:
A dictionary containing the parameter info.

Reimplemented from EMAN::Processor.

Definition at line 6187 of file processor.h.

References EMAN::EMObject::FLOAT, EMAN::TypeDict::put(), and EMAN::EMObject::STRING.

06188                 {
06189                         TypeDict d;
06190                         d.put("sigma", EMObject::FLOAT, "sigma value for this Gaussian blob");
06191                         d.put("axis", EMObject::STRING, "specify a major axis for asymmetric features");
06192                         d.put("c", EMObject::FLOAT, "distance between focus and the center of an ellipse");
06193                         return d;
06194                 }

static Processor* EMAN::TestImageGaussian::NEW (  )  [inline, static]

Definition at line 6182 of file processor.h.

06183                 {
06184                         return new TestImageGaussian();
06185                 }

void TestImageGaussian::process_inplace ( EMData image  )  [virtual]

To process an image in-place.

For those processors which can only be processed out-of-place, override this function to just print out some error message to remind user call the out-of-place version.

Parameters:
image The image to be processed.

Implements EMAN::Processor.

Definition at line 7180 of file processor.cpp.

References EMAN::EMData::get_data(), InvalidValueException, EMAN::Processor::params, EMAN::TestImageProcessor::preprocess(), sqrt(), and EMAN::EMData::update().

07181 {
07182         preprocess(image);
07183 
07184         float sigma = params["sigma"];
07185         string axis = (const char*)params["axis"];
07186         float c = params["c"];
07187 
07188         float *dat = image->get_data();
07189         float r; //this is the distance of pixel from the image center(nx/2, ny/2, nz/2)
07190         float x2, y2, z2; //this is the coordinates of this pixel from image center
07191         for (int k = 0; k < nz; ++k) {
07192                 for (int j = 0; j < ny; ++j) {
07193                         for (int i = 0; i < nx; ++i, ++dat) {
07194                                 x2 = (float)( i - nx/2 );
07195                                 y2 = (float)( j - ny/2 );
07196                                 z2 = (float)( k - nz/2 );
07197 
07198                                 if(axis==""){
07199                                         r = (float)sqrt(x2*x2+y2*y2+z2*z2);
07200                                 }
07201                                 else if(axis == "x"){
07202                                         float lc = -c;
07203                                         float rc = c;
07204                                         r = ( (float)sqrt((x2-lc)*(x2-lc)+y2*y2+z2*z2) +
07205                                                   (float)sqrt((x2-rc)*(x2-rc)+y2*y2+z2*z2) ) /2.0f - c;
07206                                 }
07207                                 else if(axis == "y"){
07208                                         float lc = -c;
07209                                         float rc = c;
07210                                         r = ( (float)sqrt(x2*x2+(y2-lc)*(y2-lc)+z2*z2) +
07211                                                   (float)sqrt(x2*x2+(y2-rc)*(y2-rc)+z2*z2) ) /2.0f - c;
07212                                 }
07213                                 else if(axis == "z"){
07214                                         if( nz == 1 ){
07215                                                 throw InvalidValueException(0, "This is a 2D image, no asymmetric feature for z axis");
07216                                         }
07217                                         float lc = -c;
07218                                         float rc = c;
07219                                         r = ( (float)sqrt(x2*x2+y2*y2+(z2-lc)*(z2-lc)) +
07220                                                   (float)sqrt(x2*x2+y2*y2+(z2-rc)*(z2-rc)) ) /2.0f - c;
07221                                 }
07222                                 else{
07223                                         throw InvalidValueException(0, "please specify a valid axis for asymmetric features");
07224                                 }
07225                                 //the amplitude of the pixel is proportional to the distance of this pixel from the center
07226                                 *dat = (float)gsl_ran_gaussian_pdf((double)r,(double)sigma);
07227                         }
07228                 }
07229         }
07230 
07231         image->update();
07232 }


Member Data Documentation

const string TestImageGaussian::NAME = "testimage.gaussian" [static]

Definition at line 6196 of file processor.h.

Referenced by get_name().


The documentation for this class was generated from the following files:
Generated on Thu May 3 10:10:52 2012 for EMAN2 by  doxygen 1.4.7