| 1 | %'px_XYZ': transform physical to image coordinates. |
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| 2 | %------------------------------------------------------------------------ |
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| 3 | %[X,Y]=px_XYZ(Calib,Xphys,Yphys,Zphys) |
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| 4 | %------------------------------------------------------------------------ |
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| 5 | % OUTPUT: |
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| 6 | % [X,Y]: image coordinates(in pixels) |
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| 7 | %------------------------------------------------------------------------ |
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| 8 | % INPUT: |
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| 9 | % Calib: structure containing calibration parameters |
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| 10 | % Xphys,Yphys,Zphys; vectors of physical coordinates for a set of points |
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| 11 | |
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| 12 | %======================================================================= |
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| 13 | % Copyright 2008-2018, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France |
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| 14 | % http://www.legi.grenoble-inp.fr |
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| 15 | % Joel.Sommeria - Joel.Sommeria (A) legi.cnrs.fr |
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| 16 | % |
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| 17 | % This file is part of the toolbox UVMAT. |
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| 18 | % |
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| 19 | % UVMAT is free software; you can redistribute it and/or modify |
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| 20 | % it under the terms of the GNU General Public License as published |
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| 21 | % by the Free Software Foundation; either version 2 of the license, |
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| 22 | % or (at your option) any later version. |
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| 23 | % |
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| 24 | % UVMAT is distributed in the hope that it will be useful, |
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| 25 | % but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 26 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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| 27 | % GNU General Public License (see LICENSE.txt) for more details. |
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| 28 | %======================================================================= |
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| 29 | |
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| 30 | function [X,Y]=px_XYZ(Calib,Xphys,Yphys,Zphys) |
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| 31 | if ~exist('Zphys','var') |
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| 32 | Zphys=0; |
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| 33 | end |
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| 34 | if ~isfield(Calib,'fx_fy') |
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| 35 | Calib.fx_fy=[1 1]; |
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| 36 | end |
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| 37 | if ~isfield(Calib,'Tx_Ty_Tz') |
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| 38 | Calib.Tx_Ty_Tz=[0 0 1]; |
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| 39 | end |
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| 40 | |
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| 41 | %%%%%%%%%%%%% |
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| 42 | % general case |
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| 43 | if isfield(Calib,'R') |
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| 44 | R=(Calib.R)'; |
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| 45 | %correct z for refraction if needed |
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| 46 | if isfield(Calib,'InterfaceCoord') && isfield(Calib,'RefractionIndex') |
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| 47 | H=Calib.InterfaceCoord(3); |
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| 48 | if H>Zphys |
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| 49 | Zphys=H-(H-Zphys)/Calib.RefractionIndex; %corrected z (virtual object) |
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| 50 | % test_refraction=1; |
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| 51 | end |
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| 52 | end |
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| 53 | |
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| 54 | %camera coordinates |
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| 55 | xc=R(1)*Xphys+R(2)*Yphys+R(3)*Zphys+Calib.Tx_Ty_Tz(1); |
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| 56 | yc=R(4)*Xphys+R(5)*Yphys+R(6)*Zphys+Calib.Tx_Ty_Tz(2); |
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| 57 | zc=R(7)*Xphys+R(8)*Yphys+R(9)*Zphys+Calib.Tx_Ty_Tz(3); |
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| 58 | |
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| 59 | %undistorted image coordinates |
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| 60 | Xu=xc./zc; |
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| 61 | Yu=yc./zc; |
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| 62 | |
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| 63 | %radial quadratic correction factor |
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| 64 | if ~isfield(Calib,'kc') |
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| 65 | r2=1; %no quadratic distortion |
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| 66 | else |
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| 67 | r2=1+Calib.kc*(Xu.*Xu+Yu.*Yu); |
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| 68 | end |
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| 69 | |
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| 70 | %pixel coordinates |
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| 71 | if ~isfield(Calib,'Cx_Cy') |
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| 72 | Calib.Cx_Cy=[0 0];%default value |
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| 73 | end |
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| 74 | X=Calib.fx_fy(1)*Xu.*r2+Calib.Cx_Cy(1); |
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| 75 | Y=Calib.fx_fy(2)*Yu.*r2+Calib.Cx_Cy(2); |
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| 76 | |
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| 77 | %case 'rescale' |
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| 78 | else |
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| 79 | X=Calib.fx_fy(1)*(Xphys+Calib.Tx_Ty_Tz(1)); |
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| 80 | Y=Calib.fx_fy(2)*(Yphys+Calib.Tx_Ty_Tz(2)); |
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| 81 | end |
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| 82 | |
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| 83 | |
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| 84 | |
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