#include <reconstructor.h>
Inheritance diagram for EMAN::nn4_rectReconstructor:
Public Member Functions | |
nn4_rectReconstructor () | |
nn4_rectReconstructor (const string &symmetry, int size, int npad) | |
virtual | ~nn4_rectReconstructor () |
virtual void | setup () |
Initialize the reconstructor. | |
virtual int | insert_slice (const EMData *const slice, const Transform &euler, const float weight=1.0) |
Insert an image slice to the reconstructor. | |
virtual EMData * | finish (bool doift=true) |
Finish reconstruction and return the complete model. | |
virtual string | get_name () const |
Get the unique name of this class (especially for factory based instantiation access). | |
virtual string | get_desc () const |
Get a clear, concise description of this class. | |
virtual TypeDict | get_param_types () const |
void | setup (const string &symmetry, int size, int npad) |
int | insert_padfft_slice (EMData *padded, const Transform &trans, int mult=1) |
Static Public Member Functions | |
Reconstructor * | NEW () |
Static Public Attributes | |
const string | NAME = "nn4_rect" |
Private Member Functions | |
void | buildFFTVolume () |
void | buildNormVolume () |
void | load_default_settings () |
Private Attributes | |
EMData * | m_volume |
EMData * | m_wptr |
EMData * | m_result |
bool | m_delete_volume |
bool | m_delete_weight |
string | m_symmetry |
int | m_weighting |
int | m_vnx |
int | m_vny |
int | m_vnz |
int | m_npad |
int | m_nsym |
int | m_ndim |
int | m_vnzp |
int | m_vnyp |
int | m_vnxp |
int | m_vnzc |
int | m_vnyc |
int | m_vnxc |
int | m_count |
float | m_xratio |
float | m_yratio |
float | m_zratio |
float | m_xscale |
float | m_yscale |
int | m_sizeofprojection |
float | m_wghta |
float | m_wghtb |
float | m_osnr |
Definition at line 812 of file reconstructor.h.
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Definition at line 2297 of file reconstructor.cpp. References m_result, m_volume, and m_wptr.
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Definition at line 2304 of file reconstructor.cpp. References load_default_settings(), m_result, m_volume, m_wptr, EMAN::Reconstructor::print_params(), and setup(). 02305 { 02306 m_volume = NULL; 02307 m_wptr = NULL; 02308 m_result = NULL; 02309 setup( symmetry, size, npad ); 02310 load_default_settings(); 02311 print_params(); 02312 }
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Definition at line 2314 of file reconstructor.cpp. References checked_delete(), m_result, m_volume, and m_wptr. 02315 { 02316 if( m_delete_volume ) checked_delete(m_volume); 02317 02318 if( m_delete_weight ) checked_delete( m_wptr ); 02319 02320 checked_delete( m_result ); 02321 }
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Definition at line 2394 of file reconstructor.cpp. References EMAN::EMData::get_xsize(), EMAN::EMData::get_ysize(), EMAN::EMData::get_zsize(), EMAN::Dict::has_key(), m_delete_volume, m_npad, m_vnxp, m_vnyp, m_vnzp, m_volume, EMAN::EMData::set_array_offsets(), EMAN::EMData::set_attr(), EMAN::EMData::set_complex(), EMAN::EMData::set_fftodd(), EMAN::EMData::set_fftpad(), EMAN::EMData::set_nxc(), EMAN::EMData::set_ri(), EMAN::EMData::set_size(), and EMAN::EMData::to_zero(). Referenced by setup(). 02394 { 02395 int offset = 2 - m_vnxp%2; 02396 02397 if( params.has_key("fftvol") ) { 02398 m_volume = params["fftvol"]; 02399 m_delete_volume = false; 02400 } else { 02401 m_volume = new EMData(); 02402 m_delete_volume = true; 02403 } 02404 02405 if( m_volume->get_xsize() != m_vnxp+offset && m_volume->get_ysize() != m_vnyp && m_volume->get_zsize() != m_vnzp ) { 02406 m_volume->set_size(m_vnxp+offset,m_vnyp,m_vnzp); 02407 m_volume->to_zero(); 02408 } 02409 // ---------------------------------------------------------------- 02410 // Added by Zhengfan Yang on 03/15/07 02411 // Original author: please check whether my revision is correct and 02412 // other Reconstructor need similiar revision. 02413 if ( m_vnxp % 2 == 0 ) m_volume->set_fftodd(0); 02414 else m_volume->set_fftodd(1); 02415 // ---------------------------------------------------------------- 02416 02417 m_volume->set_nxc(m_vnxp/2); 02418 m_volume->set_complex(true); 02419 m_volume->set_ri(true); 02420 m_volume->set_fftpad(true); 02421 m_volume->set_attr("npad", m_npad); 02422 m_volume->set_array_offsets(0,1,1); 02423 }
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Definition at line 2425 of file reconstructor.cpp. References EMAN::EMData::get_xsize(), EMAN::EMData::get_ysize(), EMAN::EMData::get_zsize(), EMAN::Dict::has_key(), m_delete_weight, m_vnxc, m_vnyp, m_vnzp, m_wptr, EMAN::EMData::set_array_offsets(), EMAN::EMData::set_size(), and EMAN::EMData::to_zero(). Referenced by setup(). 02425 { 02426 02427 if( params.has_key("weight") ) { 02428 m_wptr = params["weight"]; 02429 m_delete_weight = false; 02430 } else { 02431 m_wptr = new EMData(); 02432 m_delete_weight = true; 02433 } 02434 02435 if( m_wptr->get_xsize() != m_vnxc+1 && 02436 m_wptr->get_ysize() != m_vnyp && 02437 m_wptr->get_zsize() != m_vnzp ) { 02438 m_wptr->set_size(m_vnxc+1,m_vnyp,m_vnzp); 02439 m_wptr->to_zero(); 02440 } 02441 02442 m_wptr->set_array_offsets(0,1,1); 02443 }
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Finish reconstruction and return the complete model.
Reimplemented from EMAN::Reconstructor. Definition at line 2650 of file reconstructor.cpp. References abs, circumf_rect(), EMAN::EMData::copy(), EMAN::EMData::depad(), EMAN::EMData::do_ift_inplace(), EMAN::EMData::get_attr(), m_ndim, m_result, m_vnyc, m_vnyp, m_volume, m_weighting, m_wghta, m_wptr, max, max2d(), max3d(), EMAN::EMData::set_array_offsets(), and EMAN::EMData::symplane0_rect(). 02651 { 02652 02653 if( m_ndim==3 ) { 02654 m_volume->symplane0_rect(m_wptr); 02655 } else { 02656 for( int i=1; i <= m_vnyp; ++i ) { 02657 02658 if( (*m_wptr)(0, i, 1)==0.0 ) { 02659 int j = m_vnyp + 1 - i; 02660 (*m_wptr)(0, i, 1) = (*m_wptr)(0, j, 1); 02661 (*m_volume)(0, i, 1) = (*m_volume)(0, j, 1); 02662 (*m_volume)(1, i, 1) = (*m_volume)(1, j, 1); 02663 } 02664 } 02665 } 02666 02667 02668 int box = 7; 02669 int kc = (box-1)/2; 02670 vector< float > pow_a( m_ndim*kc+1, 1.0 ); 02671 for( unsigned int i=1; i < pow_a.size(); ++i ) pow_a[i] = pow_a[i-1] * exp(m_wghta); 02672 pow_a.back()=0.0; 02673 02674 float alpha = 0.0; 02675 if( m_ndim==3) { 02676 int vol = box*box*box; 02677 float max = max3d( kc, pow_a ); 02678 alpha = ( 1.0f - 1.0f/(float)vol ) / max; 02679 } else { 02680 int ara = box*box; 02681 float max = max2d( kc, pow_a ); 02682 alpha = ( 1.0f - 1.0f/(float)ara ) / max; 02683 } 02684 02685 int ix,iy,iz; 02686 for (iz = 1; iz <= m_vnzp; iz++) { 02687 for (iy = 1; iy <= m_vnyp; iy++) { 02688 for (ix = 0; ix <= m_vnxc; ix++) { 02689 if ( (*m_wptr)(ix,iy,iz) > 0) {//(*v) should be treated as complex!! 02690 float tmp; 02691 tmp = (-2*((ix+iy+iz)%2)+1)/((*m_wptr)(ix,iy,iz)+m_osnr); 02692 02693 if( m_weighting == ESTIMATE ) { 02694 int cx = ix; 02695 int cy = (iy<=m_vnyc) ? iy - 1 : iy - 1 - m_vnyp; 02696 int cz = (iz<=m_vnzc) ? iz - 1 : iz - 1 - m_vnzp; 02697 float sum = 0.0; 02698 for( int ii = -kc; ii <= kc; ++ii ) { 02699 int nbrcx = cx + ii; 02700 if( nbrcx >= m_vnxc ) continue; 02701 for( int jj= -kc; jj <= kc; ++jj ) { 02702 int nbrcy = cy + jj; 02703 if( nbrcy <= -m_vnyc || nbrcy >= m_vnyc ) continue; 02704 02705 int kcz = (m_ndim==3) ? kc : 0; 02706 for( int kk = -kcz; kk <= kcz; ++kk ) { 02707 int nbrcz = cz + kk; 02708 if( nbrcz <= -m_vnyc || nbrcz >= m_vnyc ) continue; 02709 if( nbrcx < 0 ) { 02710 nbrcx = -nbrcx; 02711 nbrcy = -nbrcy; 02712 nbrcz = -nbrcz; 02713 } 02714 int nbrix = nbrcx; 02715 int nbriy = nbrcy >= 0 ? nbrcy + 1 : nbrcy + 1 + m_vnyp; 02716 int nbriz = nbrcz >= 0 ? nbrcz + 1 : nbrcz + 1 + m_vnzp; 02717 if( (*m_wptr)( nbrix, nbriy, nbriz ) == 0 ) { 02718 int c = m_ndim*kc+1 - std::abs(ii) - std::abs(jj) - std::abs(kk); 02719 sum = sum + pow_a[c]; 02720 } 02721 } 02722 } 02723 } 02724 float wght = 1.0f / ( 1.0f - alpha * sum ); 02725 tmp = tmp * wght; 02726 } 02727 (*m_volume)(2*ix,iy,iz) *= tmp; 02728 (*m_volume)(2*ix+1,iy,iz) *= tmp; 02729 } 02730 } 02731 } 02732 } 02733 02734 //if(m_ndim==2) printImage( m_volume ); 02735 02736 // back fft 02737 m_volume->do_ift_inplace(); 02738 02739 02740 int npad = m_volume->get_attr("npad"); 02741 m_volume->depad(); 02742 circumf_rect( m_volume, npad ); 02743 //circumf_rect_new( m_volume, npad,m_xratio,m_yratio); 02744 m_volume->set_array_offsets( 0, 0, 0 ); 02745 02746 m_result = m_volume->copy(); 02747 return m_result; 02748 }
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Get a clear, concise description of this class.
Implements EMAN::FactoryBase. Definition at line 840 of file reconstructor.h. 00841 { 00842 return "Direct Fourier inversion routine"; 00843 }
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Get the unique name of this class (especially for factory based instantiation access).
Implements EMAN::FactoryBase. Definition at line 835 of file reconstructor.h. 00836 {
00837 return NAME;
00838 }
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Implements EMAN::FactoryBase. Definition at line 850 of file reconstructor.h. References EMAN::TypeDict::put(). 00851 { 00852 TypeDict d; 00853 d.put("sizeprojection", EMObject::INT); 00854 d.put("sizex", EMObject::INT); 00855 d.put("sizey", EMObject::INT); 00856 d.put("sizez", EMObject::INT); 00857 d.put("xratio", EMObject::FLOAT); 00858 d.put("yratio", EMObject::FLOAT); 00859 d.put("npad", EMObject::INT); 00860 d.put("sign", EMObject::INT); 00861 d.put("ndim", EMObject::INT); 00862 d.put("snr", EMObject::FLOAT); 00863 d.put("symmetry", EMObject::STRING); 00864 d.put("snr", EMObject::FLOAT); 00865 d.put("fftvol", EMObject::EMDATA); 00866 d.put("weight", EMObject::EMDATA); 00867 d.put("weighting", EMObject::INT); 00868 return d; 00869 }
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Definition at line 2554 of file reconstructor.cpp. References Assert, EMAN::Transform::get_sym(), EMAN::EMData::insert_rect_slice(), m_npad, m_sizeofprojection, m_symmetry, m_volume, m_wptr, m_xratio, m_yratio, mult(), and t. Referenced by insert_slice(). 02555 { 02556 Assert( padfft != NULL ); 02557 02558 02559 for( int isym=0; isym < m_nsym; isym++) { 02560 Transform tsym = t.get_sym( m_symmetry, isym ); 02561 m_volume->insert_rect_slice(m_wptr, padded, t, m_sizeofprojection, m_xratio, m_yratio, m_npad, mult); 02562 } 02563 02564 return 0; 02565 02566 }
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Insert an image slice to the reconstructor. To insert multiple image slices, call this function multiple times.
Reimplemented from EMAN::Reconstructor. Definition at line 2447 of file reconstructor.cpp. References Assert, checked_delete(), EMAN::EMObject::f, EMAN::EMData::get_attr(), EMAN::EMData::get_attr_default(), EMAN::EMData::get_value_at(), EMAN::EMData::get_xsize(), EMAN::EMData::get_ysize(), insert_padfft_slice(), LOGERR, m_count, m_ndim, m_npad, m_sizeofprojection, m_vnxp, m_vnyp, m_volume, m_xratio, m_yratio, mult(), EMAN::padfft_slice(), sqrt(), and t. 02447 { 02448 // sanity checks 02449 02450 02451 //m_count=m_count+1; 02452 if (!slice) { 02453 LOGERR("try to insert NULL slice"); 02454 return 1; 02455 } 02456 02457 int padffted= slice->get_attr_default( "padffted", 0 ); 02458 if( m_ndim==3 ) { 02459 if ( padffted==0 && (slice->get_xsize()!=slice->get_ysize() || slice->get_xsize()!=m_sizeofprojection) ) { 02460 02461 // FIXME: Why doesn't this throw an exception? 02462 LOGERR("Tried to insert a slice that is the wrong size."); 02463 return 1; 02464 } 02465 } 02466 if (m_ndim==2) { 02467 Assert( m_ndim==2 ); 02468 if( slice->get_ysize() !=1 ) { 02469 LOGERR( "for 2D reconstruction, a line is excepted" ); 02470 return 1; 02471 } 02472 } 02473 02474 EMData* padfft = NULL; 02475 02476 if( padffted != 0 ) padfft = new EMData(*slice); 02477 else padfft = padfft_slice( slice, t, m_npad ); 02478 02479 int mult= slice->get_attr_default( "mult", 1 ); 02480 Assert( mult > 0 ); 02481 02482 if( m_ndim==3 ) { 02483 insert_padfft_slice( padfft, t, mult ); 02484 02485 } else { 02486 float ellipse_length,ellipse_step,cos_alpha,sin_alpha; 02487 int ellipse_length_int; 02488 float alpha = padfft->get_attr( "alpha" ); 02489 alpha = alpha/180.0f*M_PI; 02490 int loop_range; 02491 float temp1,temp2; 02492 temp1=m_xratio*cos(alpha)*float(m_sizeofprojection*m_npad)/2; 02493 temp2=m_yratio*sin(alpha)*float(m_sizeofprojection*m_npad)/2; 02494 ellipse_length=sqrt(temp1*temp1+temp2*temp2); 02495 ellipse_length_int=int(ellipse_length); 02496 ellipse_step=0.5*(m_sizeofprojection*m_npad)/float(ellipse_length_int); 02497 loop_range=ellipse_length_int; 02498 cos_alpha=temp1/ellipse_length; 02499 sin_alpha=temp2/ellipse_length; 02500 if(m_count%100==0) 02501 { 02502 std::cout<<"#############################################################"<<std::endl; 02503 std::cout<<"line insert start=="<<m_count<<std::endl; 02504 std::cout<<"ellipse lenth=="<<ellipse_length_int<<"ellips step=="<<ellipse_step<<std::endl; 02505 std::cout<<"loop_range"<<loop_range<<std::endl; 02506 std::cout<<"x and y ratio=="<<m_xratio<<" "<<m_yratio<<std::endl; 02507 std::cout<<"cos sin of alpha=="<<cos(alpha)<<" "<<sin(alpha)<<std::endl; 02508 std::cout<<"cos sin of alpha_new==="<<cos_alpha<<sin_alpha<<std::endl; 02509 std::cout<<"alpah dig==="<<cos_alpha<<sin_alpha<<std::endl; 02510 std::cout<<"prjection maximum==="<<loop_range*ellipse_step<<"ideal maximum"<<m_sizeofprojection*m_npad/2<<std::endl; 02511 std::cout<<"x_size=="<<m_volume->get_xsize()<<"y_size=="<<m_volume->get_ysize()<<std::endl; 02512 std::cout<<"#############################################################"<<std::endl; 02513 02514 02515 02516 02517 } 02518 for(int i=0; i <=loop_range; ++i ) { 02519 float xnew = i*cos_alpha; 02520 float ynew = -i*sin_alpha; 02521 if(m_count%100==0&&i==loop_range) 02522 std::cout<<"x_new=="<<xnew<<"Y_new=="<<ynew<<std::endl; 02523 float btqr=0,btqi=0; 02524 float xprj=i*ellipse_step; 02525 float t=xprj-int(xprj); 02526 btqr = (1-t)*padfft->get_value_at( 2*int(xprj), 0, 0 )+t*padfft->get_value_at( 2*(1+int(xprj)), 0, 0 ); 02527 btqi = (1-t)*padfft->get_value_at( 2*int(xprj)+1, 0, 0 )+t*padfft->get_value_at( 2*(1+int(xprj))+1, 0, 0 ); 02528 if( xnew < 0.0 ) { 02529 xnew *= -1; 02530 ynew *= -1; 02531 btqi *= -1; 02532 } 02533 02534 int ixn = int(xnew+0.5+m_vnxp) - m_vnxp; 02535 int iyn = int(ynew+0.5+m_vnyp) - m_vnyp; 02536 02537 if(iyn < 0 ) iyn += m_vnyp; 02538 if(m_count%100==0&&i==loop_range) 02539 std::cout<<"xnn=="<<ixn<<"ynn=="<<iyn<<std::endl; 02540 (*m_volume)( 2*ixn, iyn+1, 1 ) += btqr *float(mult); 02541 (*m_volume)( 2*ixn+1, iyn+1, 1 ) += btqi * float(mult); 02542 (*m_wptr)(ixn,iyn+1, 1) += float(mult); 02543 } 02544 02545 02546 } 02547 checked_delete( padfft ); 02548 return 0; 02549 }
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Definition at line 900 of file reconstructor.h. Referenced by nn4_rectReconstructor(). 00901 {
00902 //params["use_weights"] = false;
00903 }
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Definition at line 845 of file reconstructor.h. 00846 { 00847 return new nn4_rectReconstructor(); 00848 }
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Definition at line 2343 of file reconstructor.cpp. References buildFFTVolume(), buildNormVolume(), EMAN::Transform::get_nsym(), EMAN::Dict::has_key(), m_ndim, m_npad, m_nsym, m_symmetry, m_vnx, m_vnxc, m_vnxp, m_vny, m_vnyc, m_vnyp, m_vnz, m_vnzc, m_vnzp, m_weighting, m_wghta, m_xratio, and m_yratio. 02344 { 02345 m_weighting = ESTIMATE; 02346 m_wghta = 0.2f; 02347 m_symmetry = symmetry; 02348 m_npad = npad; 02349 m_nsym = Transform::get_nsym(m_symmetry); 02350 02351 if( params.has_key("sizex") ) m_vnx = params["sizex"]; 02352 else if(params.has_key("xratio")) 02353 { 02354 float temp=params["xratio"]; 02355 m_vnx=int(float(sizeprojection)*temp); 02356 } 02357 else m_vnx=sizeprojection; 02358 02359 if( params.has_key("sizey") ) m_vny = params["sizey"]; 02360 else if (params.has_key("yratio")) 02361 { 02362 float temp=params["yratio"]; 02363 m_vny=int(float(sizeprojection)*temp); 02364 } 02365 else m_vny=sizeprojection; 02366 02367 if( params.has_key("sizez") ) 02368 m_vnz = params["sizez"]; 02369 else 02370 m_vnz = (m_ndim==3) ? sizeprojection : 1; 02371 02372 m_xratio=float(m_vnx)/float(sizeprojection); 02373 m_yratio=float(m_vny)/float(sizeprojection); 02374 02375 //std::cout<<"dim==="<<m_ndim<<"xratio=="<<m_xratio<<"yratio=="<<m_yratio<<std::endl; 02376 //std::cout<<"sx=="<<m_vnx<<"sy=="<<m_vny<<"sz=="<<m_vnz<<std::endl; 02377 02378 02379 m_vnxp = m_vnx*npad; 02380 m_vnyp = m_vny*npad; 02381 m_vnzp = (m_ndim==3) ? m_vnz*npad : 1; 02382 02383 m_vnxc = m_vnxp/2; 02384 m_vnyc = m_vnyp/2; 02385 m_vnzc = (m_ndim==3) ? m_vnzp/2 : 1; 02386 02387 buildFFTVolume(); 02388 buildNormVolume(); 02389 02390 02391 }
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Initialize the reconstructor.
Implements EMAN::Reconstructor. Definition at line 2324 of file reconstructor.cpp. References EMAN::Dict::has_key(), m_count, m_ndim, m_osnr, and m_sizeofprojection. Referenced by nn4_rectReconstructor(). 02325 { 02326 m_sizeofprojection = params["sizeprojection"]; 02327 int npad = params["npad"]; 02328 m_count=0; 02329 02330 string symmetry; 02331 if( params.has_key("symmetry") ) symmetry = params["symmetry"].to_str(); 02332 else symmetry = "c1"; 02333 02334 if( params.has_key("ndim") ) m_ndim = params["ndim"]; 02335 else m_ndim = 3; 02336 02337 if( params.has_key( "snr" ) ) m_osnr = 1.0f/float( params["snr"] ); 02338 else m_osnr = 0.0; 02339 02340 setup( symmetry, m_sizeofprojection, npad ); 02341 }
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Definition at line 891 of file reconstructor.h. Referenced by insert_slice(), and setup(). |
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Definition at line 881 of file reconstructor.h. Referenced by buildFFTVolume(). |
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Definition at line 882 of file reconstructor.h. Referenced by buildNormVolume(). |
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Definition at line 888 of file reconstructor.h. Referenced by finish(), insert_slice(), and setup(). |
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Definition at line 886 of file reconstructor.h. Referenced by buildFFTVolume(), insert_padfft_slice(), insert_slice(), and setup(). |
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Definition at line 887 of file reconstructor.h. Referenced by setup(). |
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Definition at line 899 of file reconstructor.h. Referenced by setup(). |
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Definition at line 880 of file reconstructor.h. Referenced by finish(), nn4_rectReconstructor(), and ~nn4_rectReconstructor(). |
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Definition at line 894 of file reconstructor.h. Referenced by insert_padfft_slice(), insert_slice(), and setup(). |
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Definition at line 883 of file reconstructor.h. Referenced by insert_padfft_slice(), and setup(). |
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Definition at line 885 of file reconstructor.h. Referenced by setup(). |
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Definition at line 890 of file reconstructor.h. Referenced by buildNormVolume(), and setup(). |
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Definition at line 889 of file reconstructor.h. Referenced by buildFFTVolume(), insert_slice(), and setup(). |
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Definition at line 885 of file reconstructor.h. Referenced by setup(). |
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Definition at line 890 of file reconstructor.h. |
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Definition at line 889 of file reconstructor.h. Referenced by buildFFTVolume(), buildNormVolume(), finish(), insert_slice(), and setup(). |
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Definition at line 885 of file reconstructor.h. Referenced by setup(). |
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Definition at line 890 of file reconstructor.h. Referenced by setup(). |
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Definition at line 889 of file reconstructor.h. Referenced by buildFFTVolume(), buildNormVolume(), and setup(). |
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Definition at line 878 of file reconstructor.h. Referenced by buildFFTVolume(), finish(), insert_padfft_slice(), insert_slice(), nn4_rectReconstructor(), and ~nn4_rectReconstructor(). |
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Definition at line 884 of file reconstructor.h. |
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Definition at line 897 of file reconstructor.h. |
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Definition at line 898 of file reconstructor.h. |
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Definition at line 879 of file reconstructor.h. Referenced by buildNormVolume(), finish(), insert_padfft_slice(), nn4_rectReconstructor(), and ~nn4_rectReconstructor(). |
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Definition at line 892 of file reconstructor.h. Referenced by insert_padfft_slice(), insert_slice(), and setup(). |
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Definition at line 893 of file reconstructor.h. |
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Definition at line 892 of file reconstructor.h. Referenced by insert_padfft_slice(), insert_slice(), and setup(). |
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Definition at line 893 of file reconstructor.h. |
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Definition at line 892 of file reconstructor.h. |
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Definition at line 78 of file reconstructor.cpp. |