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EMAN::CTFSNRWeightProcessor Class Reference

#include <processor.h>

Inheritance diagram for EMAN::CTFSNRWeightProcessor:

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Collaboration diagram for EMAN::CTFSNRWeightProcessor:
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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

ProcessorNEW ()

Static Public Attributes

const string NAME = "ctf.snr.weight"

Detailed Description

Author:
David Woolford
Date:
June 15th 2009

Definition at line 5891 of file processor.h.


Member Function Documentation

virtual string EMAN::CTFSNRWeightProcessor::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 5901 of file processor.h.

05902                         {
05903                                 return "Weight the amplitudes of an image based on radial noise and snr curves ";
05904                         }

virtual string EMAN::CTFSNRWeightProcessor::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 5896 of file processor.h.

05897                         {
05898                                 return NAME;
05899                         }

virtual TypeDict EMAN::CTFSNRWeightProcessor::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 5911 of file processor.h.

References EMAN::TypeDict::put().

05912                         {
05913                                 TypeDict d;
05914                                 d.put("noise", EMObject::FLOATARRAY, "The noise profile, squared amplitude. As in, what is the EMAN2CTF.background attribute");
05915                                 d.put("snr", EMObject::FLOATARRAY, "Squared amplitude divided by squared noise amplitude. As in, what is the EMAN2CTF.snr attribute");
05916                                 d.put("boost", EMObject::FLOAT, "Multiplicative signal boost");
05917                                 return d;
05918                         }

Processor* EMAN::CTFSNRWeightProcessor::NEW  )  [inline, static]
 

Definition at line 5906 of file processor.h.

05907                         {
05908                                 return new CTFSNRWeightProcessor();
05909                         }

void CTFSNRWeightProcessor::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 6678 of file processor.cpp.

References EMAN::EMData::ap2ri(), EMAN::EMData::calc_radial_dist(), EMAN::EMData::copy(), EMAN::EMData::depad(), EMAN::EMData::do_fft_inplace(), EMAN::EMData::do_ift_inplace(), EMAN::Dict::end(), EMAN::EMData::get_data(), EMAN::EMData::get_ndim(), EMAN::EMData::get_xsize(), EMAN::EMData::get_ysize(), EMAN::EMData::get_zsize(), EMAN::Dict::has_key(), InvalidParameterException, EMAN::EMData::is_complex(), EMAN::length(), nx, EMAN::EMData::process_inplace(), EMAN::EMData::ri2ap(), EMAN::EMData::ri2inten(), EMAN::Dict::set_default(), sqrt(), x, and y.

06678                                                          {
06679         if (params.has_key("noise")==false) throw InvalidParameterException("You must supply the noise argument");
06680         if (params.has_key("snr")==false) throw InvalidParameterException("You must supply the snr argument");
06681 
06682         float boost = params.set_default("boost",1.0f);
06683 
06684         if (!image->is_complex()) {
06685                 image->do_fft_inplace();
06686         }
06687         EMData* cpy = image->copy();
06688         cpy->ri2inten();
06689         vector<float> sf = cpy->calc_radial_dist(cpy->get_ysize()/2,0.0,1.0,1);
06690         transform(sf.begin(),sf.end(),sf.begin(),sqrtf);
06691         delete cpy;
06692 
06693         image->ri2ap();
06694 
06695         vector<float> noise = params["noise"];
06696         vector<float> snr = params["snr"];
06697 
06698 //      copy(snr.begin(), snr.end(), ostream_iterator<float>(cout, "\n"));
06699 //      copy(noise.begin(), noise.end(), ostream_iterator<float>(cout, "\n"));
06700 
06701         for(vector<float>::iterator it = noise.begin(); it != noise.end(); ++it){
06702                 if ((*it) == 0) *it = 1;
06703         }
06704         for(vector<float>::iterator it = snr.begin(); it != snr.end(); ++it){
06705                 if ((*it) < 0) *it = 0;
06706         }
06707         // Subtract the mean from the data and store it in data_mm
06708         transform(snr.begin(),snr.end(),noise.begin(),snr.begin(),std::multiplies<float>());
06709         transform(snr.begin(),snr.end(),snr.begin(),sqrtf);
06710 //      copy(snr.begin(), snr.end(), ostream_iterator<float>(cout, "\n"));
06711 //      copy(noise.begin(), noise.end(), ostream_iterator<float>(cout, "\n"));
06712 
06713         int i = static_cast<int>(snr.size());
06714 
06715         float * d = image->get_data();
06716         int nx = image->get_xsize();
06717 //      int ny = image->get_ysize();
06718         int nxy = image->get_ysize()*nx;
06719         int nzon2 = image->get_zsize()/2;
06720         int nyon2 = image->get_ysize()/2;
06721         float rx, ry, rz, amp;
06722         int length;
06723         int twox;
06724         image->process_inplace("xform.fourierorigin.tocenter");
06725         for (int z = 0; z< image->get_zsize(); ++z) {
06726                 for (int y = 0; y < image->get_ysize(); ++y) {
06727                         for (int x = 0; x < image->get_xsize()/2; ++x) {
06728                                 rx = (float)x;
06729                                 ry = (float)nyon2 - (float)y;
06730                                 rz = (float)nzon2 - (float)z;
06731                                 length = static_cast<int>(sqrt(rx*rx + ry*ry + rz*rz));
06732 
06733                                 twox = 2*x;
06734                                 size_t idx1 = twox + y*nx+z*nxy;
06735                                 if (length >= i || length >= (int)sf.size()) {
06736                                         d[idx1] = 0;
06737                                         continue;
06738                                 } else {
06739                                         amp = boost*snr[length];
06740 //                                      if (amp > 0) amp =sqrtf(amp);
06741 //                                      else amp = 0;
06742                                 }
06743 
06744                                 if (sf[length] == 0) {
06745                                         d[idx1] = 0;
06746                                         continue;
06747                                 }
06748 
06749 //                              size_t idx2 = idx1 + 1;
06750 //                              cout << d[idx1] << " " << sf[length] << endl;
06751                                 d[idx1] /= sf[length];
06752                                 if (d[idx1] < 0) {
06753                                         d[idx1] *= amp;
06754                                 }else {
06755                                         d[idx1] *= -amp;
06756                                 }
06757 //                              d[idx2] = phase;
06758 
06759                         }
06760                 }
06761         }
06762 
06763         image->ap2ri();
06764         if (image->get_ndim() != 1) image->process_inplace("xform.fourierorigin.tocorner");
06765         image->do_ift_inplace();
06766         image->depad();
06767 }


Member Data Documentation

const string CTFSNRWeightProcessor::NAME = "ctf.snr.weight" [static]
 

Definition at line 193 of file processor.cpp.


The documentation for this class was generated from the following files:
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