#include <processor.h>
Inheritance diagram for EMAN::SNRProcessor:
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 Processor * | NEW () |
Static Public Attributes | |
static const string | NAME = "eman1.filter.snr" |
wiener | if set to 1, then use wiener processor to process the images using the estimated SNR with CTF amplitude correction | |
snrfile | structure factor file name |
Definition at line 5192 of file processor.h.
virtual string EMAN::SNRProcessor::get_desc | ( | ) | const [inline, virtual] |
Get the descrition of this specific processor.
This function must be overwritten by a subclass.
Implements EMAN::Processor.
Definition at line 5207 of file processor.h.
05208 { 05209 return "Processor the images by the estimated SNR in each image.if parameter 'wiener' is 1, then wiener processor the images using the estimated SNR with CTF amplitude correction."; 05210 }
virtual string EMAN::SNRProcessor::get_name | ( | ) | const [inline, virtual] |
Get the processor's name.
Each processor is identified by a unique name.
Implements EMAN::Processor.
Definition at line 5197 of file processor.h.
References NAME.
05198 { 05199 return NAME; 05200 }
virtual TypeDict EMAN::SNRProcessor::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.
Reimplemented from EMAN::Processor.
Definition at line 5212 of file processor.h.
References EMAN::EMObject::INT, EMAN::TypeDict::put(), and EMAN::EMObject::STRING.
05213 { 05214 TypeDict d; 05215 d.put("wiener", EMObject::INT, "if set to 1, then use wiener processor to process the images using the estimated SNR with CTF amplitude correction"); 05216 d.put("snrfile", EMObject::STRING, "structure factor file name"); 05217 return d; 05218 }
static Processor* EMAN::SNRProcessor::NEW | ( | ) | [inline, static] |
void SNRProcessor::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.
image | The image to be processed. |
Implements EMAN::Processor.
Definition at line 5743 of file processor.cpp.
References EMAN::Ctf::apix, EMAN::EMData::apply_radial_func(), EMAN::Ctf::compute_1d(), EMAN::Ctf::CTF_SNR, EMAN::Ctf::CTF_WIENER_FILTER, EMAN::Ctf::CTFOS, EMAN::EMData::do_fft(), EMAN::EMData::do_ift(), EMAN::EMData::get_clip(), EMAN::EMData::get_ctf(), EMAN::XYData::get_size(), EMAN::EMData::get_xsize(), EMAN::XYData::get_y(), EMAN::EMData::get_ysize(), log10(), LOGERR, EMAN::Processor::params, EMAN::EMData::process_inplace(), EMAN::XYData::read_file(), EMAN::XYData::set_y(), and EMAN::XYData::update().
05744 { 05745 if (!image) { 05746 return; 05747 } 05748 05749 int wiener = params["wiener"]; 05750 const char *snrfile = params["snrfile"]; 05751 05752 XYData sf; 05753 int err = sf.read_file(snrfile); 05754 if (err) { 05755 LOGERR("couldn't read structure factor file!"); 05756 return; 05757 } 05758 05759 05760 for (size_t i = 0; i < sf.get_size(); i++) { 05761 if (sf.get_y(i) <= 0) { 05762 sf.set_y(i, -4.0f); 05763 } 05764 else { 05765 sf.set_y(i, log10(sf.get_y(i))); 05766 } 05767 } 05768 sf.update(); 05769 05770 Ctf *image_ctf = image->get_ctf(); 05771 05772 vector < float >ctf; 05773 if (wiener) { 05774 ctf = image_ctf->compute_1d(image->get_ysize(),1.0f/(image_ctf->apix*image->get_ysize()), Ctf::CTF_WIENER_FILTER, &sf); 05775 } 05776 else { 05777 ctf = image_ctf->compute_1d(image->get_ysize(),1.0f/(image_ctf->apix*image->get_ysize()), Ctf::CTF_SNR, &sf); 05778 } 05779 05780 if(image_ctf) {delete image_ctf; image_ctf=0;} 05781 05782 image->process_inplace("normalize.circlemean"); 05783 05784 int nx = image->get_xsize(); 05785 int ny = image->get_ysize(); 05786 05787 Region clip_r(-nx / 2, -ny / 2, nx * 2, ny * 2); 05788 EMData *d3 = image->get_clip(clip_r); 05789 EMData *d2 = d3->do_fft(); 05790 05791 d2->apply_radial_func(0, 2.0f / Ctf::CTFOS, ctf, 0); 05792 05793 if( d3 ) 05794 { 05795 delete d3; 05796 d3 = 0; 05797 } 05798 05799 if( image ) 05800 { 05801 delete image; 05802 image = 0; 05803 } 05804 05805 EMData *d1 = d2->do_ift(); 05806 int d1_nx = d1->get_xsize(); 05807 int d1_ny = d1->get_ysize(); 05808 Region d1_r(d1_nx / 4, d1_ny / 4, d1_nx / 2, d1_ny / 2); 05809 05810 image = d1->get_clip(d1_r); 05811 05812 if( d1 ) 05813 { 05814 delete d1; 05815 d1 = 0; 05816 } 05817 05818 if( d2 ) 05819 { 05820 delete d2; 05821 d2 = 0; 05822 } 05823 }
const string SNRProcessor::NAME = "eman1.filter.snr" [static] |