#include <aligner.h>
Inheritance diagram for EMAN::RotateTranslateAligner:
Public Member Functions | |
virtual EMData * | align (EMData *this_img, EMData *to_img, const string &cmp_name="dot", const Dict &cmp_params=Dict()) const |
To align 'this_img' with another image passed in through its parameters. | |
virtual EMData * | align (EMData *this_img, EMData *to_img) const |
virtual string | get_name () const |
Get the Aligner's name. | |
virtual string | get_desc () const |
virtual TypeDict | get_param_types () const |
Static Public Member Functions | |
static Aligner * | NEW () |
Static Public Attributes | |
static const string | NAME = "rotate_translate" |
maxshift | Maximum translation in pixels | |
nozero | Zero translation not permitted (useful for CCD images) | |
rfp_mode | Either 0,1 or 2. A temporary flag for testing the rotational foot print |
Definition at line 343 of file aligner.h.
virtual EMData* EMAN::RotateTranslateAligner::align | ( | EMData * | this_img, | |
EMData * | to_img | |||
) | const [inline, virtual] |
Implements EMAN::Aligner.
Definition at line 349 of file aligner.h.
References align().
00350 { 00351 return align(this_img, to_img, "sqeuclidean", Dict()); 00352 }
EMData * RotateTranslateAligner::align | ( | EMData * | this_img, | |
EMData * | to_img, | |||
const string & | cmp_name = "dot" , |
|||
const Dict & | cmp_params = Dict() | |||
) | const [virtual] |
To align 'this_img' with another image passed in through its parameters.
The alignment uses a user-given comparison method to compare the two images. If none is given, a default one is used.
this_img | The image to be compared. | |
to_img | 'this_img" is aligned with 'to_img'. | |
cmp_name | The comparison method to compare the two images. | |
cmp_params | The parameter dictionary for comparison method. |
Implements EMAN::Aligner.
Definition at line 544 of file aligner.cpp.
References EMAN::EMData::align(), EMAN::RotationalAligner::align_180_ambiguous(), EMAN::EMData::cmp(), cmp1(), cmp2(), EMAN::EMData::copy(), EMAN::EMData::get_attr(), EMAN::Transform::get_rotation(), EMAN::Aligner::params, EMAN::EMData::process_inplace(), EMAN::EMData::set_attr(), EMAN::Dict::set_default(), and t.
Referenced by align().
00546 { 00547 00548 #ifdef EMAN2_USING_CUDA 00549 if(EMData::usecuda == 1) { 00550 //if(!this_img->getcudarwdata()) this_img->copy_to_cuda(); 00551 //if(!to->getcudarwdata()) to->copy_to_cuda(); 00552 } 00553 #endif 00554 00555 // Get the 180 degree ambiguously rotationally aligned and its 180 degree rotation counterpart 00556 int rfp_mode = params.set_default("rfp_mode",0); 00557 EMData *rot_align = RotationalAligner::align_180_ambiguous(this_img,to,rfp_mode); 00558 Transform * tmp = rot_align->get_attr("xform.align2d"); 00559 Dict rot = tmp->get_rotation("2d"); 00560 float rotate_angle_solution = rot["alpha"]; 00561 delete tmp; 00562 00563 EMData *rot_align_180 = rot_align->copy(); 00564 rot_align_180->process_inplace("math.rotate.180"); 00565 00566 Dict trans_params; 00567 trans_params["intonly"] = 0; 00568 trans_params["maxshift"] = params.set_default("maxshift", -1); 00569 trans_params["useflcf"]=params.set_default("useflcf",0); 00570 00571 // Do the first case translational alignment 00572 trans_params["nozero"] = params.set_default("nozero",false); 00573 EMData* rot_trans = rot_align->align("translational", to, trans_params, cmp_name, cmp_params); 00574 if( rot_align ) { // Clean up 00575 delete rot_align; 00576 rot_align = 0; 00577 } 00578 00579 // Do the second case translational alignment 00580 EMData* rot_180_trans = rot_align_180->align("translational", to, trans_params, cmp_name, cmp_params); 00581 if( rot_align_180 ) { // Clean up 00582 delete rot_align_180; 00583 rot_align_180 = 0; 00584 } 00585 00586 // Finally decide on the result 00587 float cmp1 = rot_trans->cmp(cmp_name, to, cmp_params); 00588 float cmp2 = rot_180_trans->cmp(cmp_name, to, cmp_params); 00589 00590 EMData *result = 0; 00591 if (cmp1 < cmp2) { // Assumes smaller is better - thus all comparitors should support "smaller is better" 00592 if( rot_180_trans ) { 00593 delete rot_180_trans; 00594 rot_180_trans = 0; 00595 } 00596 result = rot_trans; 00597 } 00598 else { 00599 if( rot_trans ) { 00600 delete rot_trans; 00601 rot_trans = 0; 00602 } 00603 result = rot_180_trans; 00604 rotate_angle_solution -= 180.f; 00605 } 00606 00607 Transform* t = result->get_attr("xform.align2d"); 00608 t->set_rotation(Dict("type","2d","alpha",rotate_angle_solution)); 00609 result->set_attr("xform.align2d",t); 00610 delete t; 00611 00612 return result; 00613 }
virtual string EMAN::RotateTranslateAligner::get_desc | ( | ) | const [inline, virtual] |
Implements EMAN::Aligner.
Definition at line 359 of file aligner.h.
00360 { 00361 return "Performs rotational alignment and follows this with translational alignment."; 00362 }
virtual string EMAN::RotateTranslateAligner::get_name | ( | ) | const [inline, virtual] |
virtual TypeDict EMAN::RotateTranslateAligner::get_param_types | ( | ) | const [inline, virtual] |
Implements EMAN::Aligner.
Definition at line 369 of file aligner.h.
References EMAN::EMObject::INT, and EMAN::TypeDict::put().
00370 { 00371 TypeDict d; 00372 //d.put("usedot", EMObject::INT); 00373 d.put("maxshift", EMObject::INT, "Maximum translation in pixels"); 00374 d.put("nozero", EMObject::INT,"Zero translation not permitted (useful for CCD images)"); 00375 d.put("rfp_mode", EMObject::INT,"Either 0,1 or 2. A temporary flag for testing the rotational foot print"); 00376 d.put("useflcf", EMObject::INT,"Use Fast Local Correlation Function rather than CCF for translational alignment"); 00377 return d; 00378 }
static Aligner* EMAN::RotateTranslateAligner::NEW | ( | ) | [inline, static] |
const string RotateTranslateAligner::NAME = "rotate_translate" [static] |