source: trunk/src/geometry_calib.m @ 1129

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1%'geometry_calib': associated to the GUI geometry_calib to perform geometric calibration from a set of reference points
2%------------------------------------------------------------------------
3% function hgeometry_calib = geometry_calib(inputfile,pos)
4%
5%OUTPUT:
6% hgeometry_calib=current handles of the GUI geometry_calib.fig
7%
8%INPUT:
9% inputfile: (optional) name of an xml file containing coordinates of reference points
10% pos: (optional) 4 element vector setting the 'Position' of the GUI
11
12%=======================================================================
13% Copyright 2008-2024, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France
14%   http://www.legi.grenoble-inp.fr
15%   Joel.Sommeria - Joel.Sommeria (A) univ-grenoble-alpes.fr
16%
17%     This file is part of the toolbox UVMAT.
18%
19%     UVMAT is free software; you can redistribute it and/or modify
20%     it under the terms of the GNU General Public License as published
21%     by the Free Software Foundation; either version 2 of the license,
22%     or (at your option) any later version.
23%
24%     UVMAT is distributed in the hope that it will be useful,
25%     but WITHOUT ANY WARRANTY; without even the implied warranty of
26%     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
27%     GNU General Public License (see LICENSE.txt) for more details.
28%=======================================================================
29
30function varargout = geometry_calib(varargin)
31% GEOMETRY_CALIB M-file for geometry_calib.fig
32%      GEOMETRY_CALIB, by itself, creates a MenuCoord GEOMETRY_CALIB or raises the existing
33%      singleton*.
34%
35%      H = GEOMETRY_CALIB returns the handle to a MenuCoord GEOMETRY_CALIB or the handle to
36%      the existing singleton*.
37%
38%      GEOMETRY_CALIB('CALLBACK',hObject,eventData,handles,...) calls the local
39%      function named CALLBACK in GEOMETRY_CALIB.M with the given input arguments.
40%
41%      GEOMETRY_CALIB('Property','Value',...) creates a MenuCoord GEOMETRY_CALIB or raises the
42%      existing singleton*.  Starting from the left, property value pairs are
43%      applied to the GUI before geometry_calib_OpeningFunction gets called.  An
44%      unrecognized property name or invalid value makes property application
45%      stop.  All inputs are passed to geometry_calib_OpeningFcn via varargin.
46%
47%      *See GUI Options on GUIDE's Tools menu.  Choose "GUI allows only one
48%      instance to run (singleton)".
49%
50% See also: GUIDE, GUIDATA, GUIHANDLES
51
52% Edit the above text to modify the response to help geometry_calib
53
54% Last Modified by GUIDE v2.5 05-Feb-2022 22:24:55
55
56% Begin initialization code - DO NOT edit
57gui_Singleton = 1;
58gui_State = struct('gui_Name',       mfilename, ...
59    'gui_Singleton',  gui_Singleton, ...
60    'gui_OpeningFcn', @geometry_calib_OpeningFcn, ...
61    'gui_OutputFcn',  @geometry_calib_OutputFcn, ...
62    'gui_LayoutFcn',  [] , ...
63    'gui_Callback',   []);
64if nargin
65    [pp,ff]=fileparts(which(varargin{1})); % name of the input file
66    if strcmp(ff,mfilename)% if we are activating a sub-function of geometry_calib
67        % ~isempty(regexp(varargin{1},'_Callback','once'))
68        gui_State.gui_Callback = str2func(varargin{1});
69    end
70end
71
72if nargout
73    [varargout{1:nargout}] = gui_mainfcn(gui_State, varargin{:});
74else
75    gui_mainfcn(gui_State, varargin{:});
76end
77% End initialization code - DO NOT edit
78
79
80% --- Executes just before geometry_calib is made visible.
81%INPUT:
82%handles: handles of the geometry_calib interface elements
83% PlotHandles: set of handles of the elements contolling the plotting
84% parameters on the uvmat interface (obtained by 'get_plot_handle.m')
85%------------------------------------------------------------------------
86function geometry_calib_OpeningFcn(hObject, eventdata, handles,inputfile)
87%------------------------------------------------------------------------
88
89handles.output = hObject;
90% Update handles structure
91guidata(hObject, handles);
92set(hObject,'DeleteFcn',{@closefcn})%
93
94%% position
95set(0,'Unit','pixels')
96ScreenSize=get(0,'ScreenSize');% get the size of the screen, to put the fig on the upper right
97Left=ScreenSize(3)- 460; %right edge close to the right, with margin=40 (GUI width=420 px)
98if ScreenSize(4)>920
99    Height=840;%default height of the GUI
100    Bottom=ScreenSize(4)-Height-40; %put fig at top right
101else
102    Height=ScreenSize(4)-80;
103    Bottom=40; % GUI lies o the screen bottom (with margin =40)
104end
105set(handles.calib_type,'Position',[1 Height-40 194 30])%  rank 1
106set(handles.APPLY,'Position',[197 Height-40 110 30])%  rank 1
107set(handles.Replicate,'Position',[309 Height-40 110 30])%  rank 1
108set(handles.Intrinsic,'Position',[1 Height-40-2-92 418 92])%  rank 2
109set(handles.Extrinsic,'Position',[1 Height-40-4-92-75 418 75])%  rank 3
110set(handles.PointLists,'Position',[1 Height-40-6-92-75-117 418 117]) %  rank 4
111set(handles.CheckEnableMouse,'Position',[3 Height-362 208 30])%  rank 5
112set(handles.PLOT,'Position',[3 Height-394 120 30])%  rank 6
113set(handles.Copy,'Position',[151 Height-394 120 30])%  rank 6
114set(handles.ClearAll,'Position',[297 Height-394 120 30])%  rank 6
115set(handles.ClearPoint,'Position',[297 Height-362 120 30])%  rank 6
116set(handles.CoordLine,'Position',[211 Height-362 86 30])%  rank 6
117set(handles.phys_title,'Position',[38 Height-426 125 20])%  rank 7
118set(handles.CoordUnit,'Position',[151 Height-426 120 30])%  rank 7
119set(handles.px_title,'Position',[272 Height-426 125 20])%  rank 7
120set(handles.ListCoord,'Position',[1 20 418 Height-446])% rank 8
121set(handles.geometry_calib,'Position',[Left Bottom 420 Height])
122
123%% set menu of calibration options
124set(handles.calib_type,'String',{'rescale';'linear';'3D_linear';'3D_quadr';'3D_order4';'3D_extrinsic'})
125if exist('inputfile','var')&& ~isempty(inputfile)
126    [RootPath,SubDir,RootFile,tild,tild,tild,tild,FileExt]=fileparts_uvmat(inputfile);
127    struct.XmlInputFile=find_imadoc(RootPath,SubDir,RootFile,FileExt);
128    set(handles.ListCoord,'Data',[])
129    if exist(struct.XmlInputFile,'file')
130        Heading=loadfile(handles,struct.XmlInputFile);% load data from the xml file and fill the GUI
131        if isfield(Heading,'Campaign')&& ischar(Heading.Campaign)
132            struct.Campaign=Heading.Campaign;
133        end
134    end
135    set(hObject,'UserData',struct)
136end
137
138%------------------------------------------------------------------------
139% --- Outputs from this function are returned to the command line.
140function varargout = geometry_calib_OutputFcn(~, eventdata, handles)
141%------------------------------------------------------------------------
142% Get default command line output from handles structure
143varargout{1} = handles.output;
144varargout{2}=handles;
145               
146%------------------------------------------------------------------------
147% executed when closing: set the parent interface button to value 0
148function closefcn(gcbo,eventdata)
149%------------------------------------------------------------------------
150huvmat=findobj(allchild(0),'Name','uvmat');
151if ~isempty(huvmat)
152    handles=guidata(huvmat);
153    set(handles.MenuCalib,'Checked','off')
154    hobject=findobj(handles.PlotAxes,'tag','calib_points');
155    if ~isempty(hobject)
156        delete(hobject)
157    end
158    hobject=findobj(handles.PlotAxes,'tag','calib_marker');
159    if ~isempty(hobject)
160        delete(hobject)
161    end
162end
163               
164%------------------------------------------------------------------------
165% --- Executes on button press APPLY (used to launch the calibration).
166function APPLY_Callback(hObject, eventdata, handles)
167set(handles.CheckEnableMouse,'Value',0)% desactivate mouse (to avoid spurious creation of new points)
168
169%------------------------------------------------------------------------
170%% look for the GUI uvmat and check for an image as input
171set(handles.APPLY,'BackgroundColor',[1 1 0])% paint APPLY button in yellow to show activation
172huvmat=findobj(allchild(0),'Name','uvmat');% look for the GUI uvmat
173hhuvmat=guidata(huvmat);%handles of elements in the GUI uvmat
174if ~strcmp(get(hhuvmat.Scalar,'Visible'),'on')
175    msgbox_uvmat('ERROR','An image needs to be opened in uvmat for calibration')
176    return
177end
178
179RootPath='';
180if ~isempty(hhuvmat.RootPath)&& ~isempty(hhuvmat.RootFile)
181    RootPath=get(hhuvmat.RootPath,'String');% path to the currently displayed image
182    SubDirBase=regexprep(get(hhuvmat.SubDir,'String'),'\..+$','');
183    outputfile=[fullfile(RootPath,SubDirBase) '.xml'];%xml file associated with the currently displayed image
184else
185    question={'save the calibration data and point coordinates in'};
186    def={fullfile(RootPath,'ObjectCalib.xml')};
187    options.Resize='on';
188    answer=inputdlg(question,'',1,def,options);
189    outputfile=answer{1};
190end
191
192%% read coordinates of the calibration points: Coord(:,1-3) in phys, Coord(:,4-5) image
193Coord=get(handles.ListCoord,'Data');
194if isempty(Coord)
195    msgbox_uvmat('ERROR','introduce calibration points in the table Coord, or use the Tools Set scale')
196    return
197end
198
199
200%% read the type of calibration
201calib_cell=get(handles.calib_type,'String');
202val=get(handles.calib_type,'Value');
203CalibFcn=['calib_' calib_cell{val}];
204
205%% read the intrinsic parameters
206Intrinsic.Npx=str2num(get(hhuvmat.num_Npx,'String'));
207Intrinsic.Npy=str2num(get(hhuvmat.num_Npy,'String'));
208Intrinsic.coord_files=get(handles.ListCoordFiles,'String');
209Intrinsic.fx=str2num(get(handles.fx,'String'));
210Intrinsic.fy=str2num(get(handles.fy,'String'));
211Intrinsic.kc=str2num(get(handles.kc,'String'));
212Intrinsic.Cx=str2num(get(handles.Cx,'String'));
213Intrinsic.Cy=str2num(get(handles.Cy,'String'));
214if isempty(Intrinsic.kc)
215    Intrinsic.kc=0;
216end
217if isempty(Intrinsic.Cx)||isempty(Intrinsic.Cy)
218    Intrinsic.Cx=Intrinsic.Npx/2;
219    Intrinsic.Cy=Intrinsic.Npy/2;
220end
221
222%% apply to cropped images if requested
223if get(handles.Replicate,'Value')
224    answer=msgbox_uvmat('INPUT_Y-N','apply to full images (not cropped)?');
225    if strcmp(answer,'No')
226        prompt = {'npy_lower'};
227        dlg_title = 'remove image the npy_lower image lines (removal of the upper line does not change calibration)';
228        num_lines= 1;
229        def     = {'0'};
230        answer = inputdlg(prompt,dlg_title,num_lines,def);
231        npy_crop=str2num(answer{1});
232        Intrinsic.Npy=Intrinsic.Npy-npy_crop; %size of the filtering window
233        Coord(:,5)=Coord(:,5)-npy_crop;% shift the image ordinates of the calibration points by removing the lower band
234    end
235end
236
237%% Apply calibration
238est_dist=[0;0;0;0;0]; %default
239switch CalibFcn
240    case 'calib_3D_linear'
241        CalibFcn='calib_3D';
242    case 'calib_3D_quadr'
243        est_dist=[1;0;0;0;0];
244        CalibFcn='calib_3D'
245    case 'calib_3D_order4'
246        est_dist=[1;1;0;0;0];
247        CalibFcn='calib_3D'
248end
249
250[GeometryCalib,index,ind_removed]=calibrate(Coord,CalibFcn,est_dist,Intrinsic);% apply calibration
251if isempty(GeometryCalib)
252    return
253end
254
255%% record the coordinate unit
256unitlist=get(handles.CoordUnit,'String');
257unit=unitlist{get(handles.CoordUnit,'value')};
258GeometryCalib.CoordUnit=unit;
259
260%% record the coordinates of the calibration points
261GeometryCalib.SourceCalib.PointCoord=Coord;
262
263%% set the default plane and display the calibration data errors for validation
264answer=msgbox_uvmat('INPUT_Y-N',{'store calibration data';...
265    ['Error rms (along x,y)=' num2str(GeometryCalib.ErrorRms) ' pixels'];...
266    ['Error max (along x,y)=' num2str(GeometryCalib.ErrorMax) ' pixels'];
267    [num2str(numel(ind_removed)) ' points removed with ErrorMax > 3 rms']});
268checkslice=0;
269if strcmp(answer,'Yes') %store the calibration data
270    display_intrinsic(GeometryCalib,handles)%display calibration intrinsic parameters on the GUI geometry_calib
271    display_extrinsic(GeometryCalib,handles)%display calibration extrinsic parameters on the GUI geometry_calib
272    Z=Coord(:,3);
273    if strcmp(calib_cell{val}(1:2),'3D') && isequal(max(Z),min(Z))%set the plane position for 3D (projection) calibration
274        %set the Z position of the reference plane used for calibration
275        answer=msgbox_uvmat('INPUT_Y-N',{['Do you assume that the illuminated plane is at z=' num2str(Z(1)) '?' ] ; 'can be later modified by MenuSetSlice in the upper bar menu of uvmat'});
276        if strcmp(answer,'Yes')
277            Slice.NbSlice=1;
278            Slice.SliceCoord=[0 0 Z(1)];
279            checkslice=1;% will document the item <Slice> in ImaDoc
280        end
281    end
282else
283    GeometryCalib=[];
284    index=1;
285end
286
287if ~isempty(GeometryCalib) % if calibration is not cancelled
288    %%%%% use of the option 'replicate'
289    if get(handles.Replicate,'Value')% if the option replicate is activated
290        %nbcalib=0;
291        %% open the GUI browse_data
292        hbrowse=findobj(allchild(0),'Tag','browse_data');
293        if ~isempty(hbrowse)% look for the GUI browse_data
294            BrowseData=guidata(hbrowse);
295            SourceDir=get(BrowseData.SourceDir,'String');
296            ListExp=get(BrowseData.ListExperiments,'String');
297            ExpIndices=get(BrowseData.ListExperiments,'Value');
298            ListExp=ListExp(ExpIndices);
299            ListDevices=get(BrowseData.ListDevices,'String');
300            DeviceIndices=get(BrowseData.ListDevices,'Value');
301            ListDevices=ListDevices(DeviceIndices);
302            ListDataSeries=get(BrowseData.DataSeries,'String');
303            DataSeriesIndices=get(BrowseData.DataSeries,'Value');
304            ListDataSeries=ListDataSeries(DataSeriesIndices);
305            NbExp=0; % counter of the number of experiments set by the GUI browse_data
306            for iexp=1:numel(ListExp)
307                if ~isempty(regexp(ListExp{iexp},'^\+/'))% if it is a folder
308                    for idevice=1:numel(ListDevices)
309                        if ~isempty(regexp(ListDevices{idevice},'^\+/'))% if it is a folder
310                            for isubdir=1:numel(ListDataSeries)
311                                if ~isempty(regexp(ListDataSeries{isubdir},'^\+/'))% if it is a folder
312                                    lpath= fullfile(SourceDir,regexprep(ListExp{iexp},'^\+/',''),...
313                                        regexprep(ListDevices{idevice},'^\+/',''));
314                                    ldir= regexprep(ListDataSeries{isubdir},'^\+/','');
315                                    if exist(fullfile(lpath,ldir),'dir')
316                                        NbExp=NbExp+1;
317                                        ListPath{NbExp}=lpath;
318                                        ListSubdir{NbExp}=ldir;
319                                        ExpIndex{NbExp}=iexp;
320                                    end
321                                end
322                            end
323                        end
324                    end
325                end
326            end
327            for iexp=1:NbExp
328                XmlName=fullfile(ListPath{iexp},[ListSubdir{iexp} '.xml']);
329                if exist(XmlName,'file')
330                    check_update=1;
331                else
332                    check_update=0;
333                end
334                errormsg=update_imadoc(GeometryCalib,XmlName,'GeometryCalib');% introduce the calibration data in the xml file
335                dispmessage='';
336                if checkslice
337                    errormsg=update_imadoc(Slice,XmlName,'Slice');% introduce the slice position in the xml file
338                    dispmessage=' and slice position';
339                end
340                if ~strcmp(errormsg,'')
341                    msgbox_uvmat('ERROR',errormsg);
342                else
343                    if check_update
344                        display([XmlName ' updated with calibration parameters' dispmessage])
345                    else
346                        display([XmlName ' created with calibration parameters' dispmessage])
347                    end
348                end
349            end
350        end
351        msgbox_uvmat('CONFIMATION',['calibration replicated for ' num2str(NbExp) ' experiments']);
352    else
353        %% update the calibration parameters in the currently opened uvmat GUI
354        if ~exist(outputfile,'file') && ~isempty(SubDirBase) %copy the xml file from the old location if appropriate
355            oldxml=[fullfile(RootPath,SubDirBase,get(hhuvmat.RootFile,'String')) '.xml'];
356            if exist(oldxml,'file')
357                [success,message]=copyfile(oldxml,outputfile);%copy the old xml file to a new one with the new convention
358            end
359        end
360        errormsg=update_imadoc(GeometryCalib,outputfile,'GeometryCalib');% introduce the calibration data in the xml file
361        if checkslice
362            errormsg=update_imadoc(Slice,outputfile,'Slice');% introduce the slice position in the xml file
363        end
364        if ~strcmp(errormsg,'')
365            msgbox_uvmat('ERROR',errormsg);
366        end
367
368        %% display image with new calibration in the currently opened uvmat GUI
369        FieldList=get(hhuvmat.FieldName,'String');
370        val=get(hhuvmat.FieldName,'Value');
371        if strcmp(FieldList{val},'image')
372            set(hhuvmat.CheckFixLimits,'Value',0)% put FixedLimits option to 'off' to plot the whole image
373            UserData=get(handles.geometry_calib,'UserData');
374            UserData.XmlInputFile=outputfile;%save the current xml file name
375            set(handles.geometry_calib,'UserData',UserData)
376            uvmat('InputFileREFRESH_Callback',hObject,eventdata,hhuvmat); %file input with xml reading  in uvmat, show the image in phys coordinates
377            PLOT_Callback(hObject, eventdata, handles)
378            set(handles.CoordLine,'string',num2str(index))
379            Coord=get(handles.ListCoord,'Data');
380            update_calib_marker(Coord(index,:)); %indicate the point with max deviations from phys coord to calibration
381            figure(handles.geometry_calib)% put the GUI geometry_calib in front
382        else
383            msgbox_uvmat('WARNING','open the image to see the effect of the new calibration')
384        end
385    end
386end
387
388set(handles.APPLY,'BackgroundColor',[1 0 0]) % set APPLY button to red color
389
390%------------------------------------------------------------------------
391% --- Executes on button press in Replicate
392    function Replicate_Callback(hObject, eventdata, handles)
393        % %------------------------------------------------------------------------
394        set(handles.CheckEnableMouse,'Value',0)% desactivate mouse (to avoid spurious creation of new points)
395       
396        if get(handles.Replicate,'Value') %open the GUI browse_data
397            % look for the GUI uvmat and check for an image as input
398            huvmat=findobj(allchild(0),'Name','uvmat');
399            hhuvmat=guidata(huvmat);%handles of elements in the GUI uvmat
400            RootPath=get(hhuvmat.RootPath,'String');
401            SubDir=get(hhuvmat.SubDir,'String');
402            browse_data(fullfile(RootPath,SubDir))
403        else
404            hbrowse=findobj(allchild(0),'Tag','browse_data');
405            if ~isempty(hbrowse)
406                delete(hbrowse)
407            end
408        end
409%------------------------------------------------------------------------
410% --- activate calibration and store parameters in ouputfile .
411function [GeometryCalib,ind_max,ind_removed]=calibrate(Coord,CalibFcn,est_dist,Intrinsic)
412%------------------------------------------------------------------------
413
414index=[];
415GeometryCalib=[];
416ind_max=[];ind_removed=[];
417% apply the calibration, whose type is selected in  handles.calib_type
418CoordFlip=Coord;
419CoordFlip(:,3)=Coord(:,3);% the calibration function assume a z ccordinate along the camera view, opposite to ours
420if ~isempty(Coord)
421    GeometryCalib=feval(CalibFcn,CoordFlip,est_dist,Intrinsic);
422else
423    msgbox_uvmat('ERROR','No calibration points, abort')
424end
425if isempty(GeometryCalib)
426    return
427end
428
429% estimate calibration error rms and max
430x_ima=Coord(:,4);
431y_ima=Coord(:,5);
432[Xpoints,Ypoints]=px_XYZ(GeometryCalib,[],Coord(:,1),Coord(:,2),Coord(:,3));
433GeometryCalib.ErrorRms(1)=sqrt(mean((Xpoints-x_ima).*(Xpoints-x_ima)));
434GeometryCalib.ErrorRms(2)=sqrt(mean((Ypoints-y_ima).*(Ypoints-y_ima)));
435[ErrorMax(1),index(1)]=max(abs(Xpoints-x_ima));
436[ErrorMax(2),index(2)]=max(abs(Ypoints-y_ima));
437[tild,ind_dim]=max(ErrorMax);
438ind_max=index(ind_dim); % mark the index with maximum deviation
439
440% detect bad calibration points, marked by indices ind_removed, if the
441% difference of actual image coordinates and those given by calibration is
442% greater than 2 pixels and greater than 3 rms.
443check_x=abs(Xpoints-x_ima)>max(2,3*GeometryCalib.ErrorRms(1));
444check_y=abs(Ypoints-y_ima)>max(2,3*GeometryCalib.ErrorRms(2));
445ind_removed=find(check_x | check_y);
446% repeat calibration without the excluded points:
447if ~isempty(ind_removed)
448    Coord(ind_removed,:)=[];
449    CoordFlip=Coord;
450    CoordFlip(:,3)=Coord(:,3);% the calibration function assume a z ccordinate along the camera view, opposite to ours
451    GeometryCalib=feval(CalibFcn,CoordFlip,est_dist,Intrinsic);
452    X=Coord(:,1);
453    Y=Coord(:,2);
454    Z=Coord(:,3);
455    x_ima=Coord(:,4);
456    y_ima=Coord(:,5);
457    [Xpoints,Ypoints]=px_XYZ(GeometryCalib,[],X,Y,Z);
458    GeometryCalib.ErrorRms(1)=sqrt(mean((Xpoints-x_ima).*(Xpoints-x_ima)));
459    GeometryCalib.ErrorRms(2)=sqrt(mean((Ypoints-y_ima).*(Ypoints-y_ima)));
460end
461GeometryCalib.ErrorMax=ErrorMax;
462
463
464%------------------------------------------------------------------------
465% --- determine the parameters for a calibration by an affine function (rescaling and offset, no rotation)
466function GeometryCalib=calib_rescale(Coord,est_dist,Intrinsic)
467%------------------------------------------------------------------------
468X=Coord(:,1);
469Y=Coord(:,2);% Z not used
470x_ima=Coord(:,4);
471y_ima=Coord(:,5);
472[px]=polyfit(X,x_ima,1);
473[py]=polyfit(Y,y_ima,1);
474GeometryCalib.CalibrationType='rescale';
475GeometryCalib.fx_fy=[px(1) py(1)];%.fx_fy corresponds to pxcm along x and y
476GeometryCalib.CoordUnit=[];% default value, to be updated by the calling function
477GeometryCalib.Tx_Ty_Tz=[px(2)/px(1) py(2)/py(1) 1];
478GeometryCalib.omc=[0 0 0];
479
480%------------------------------------------------------------------------
481% --- determine the parameters for a calibration by a linear transform matrix (rescale and rotation)
482function GeometryCalib=calib_linear(Coord,est_dist,Intrinsic)
483%------------------------------------------------------------------------
484X=Coord(:,1);
485Y=Coord(:,2);% Z not used
486x_ima=Coord(:,4);
487y_ima=Coord(:,5);
488XY_mat=[ones(size(X)) X Y];
489a_X1=XY_mat\x_ima; %transformation matrix for X
490a_Y1=XY_mat\y_ima;%transformation matrix for X
491R=[a_X1(2),a_X1(3);a_Y1(2),a_Y1(3)];
492epsilon=sign(det(R));
493norm=abs(det(R));
494GeometryCalib.CalibrationType='linear';
495if (a_X1(2)/a_Y1(3))>0
496    GeometryCalib.fx_fy(1)=sqrt((a_X1(2)/a_Y1(3))*norm);
497else
498    GeometryCalib.fx_fy(1)=-sqrt(-(a_X1(2)/a_Y1(3))*norm);
499end
500GeometryCalib.fx_fy(2)=(a_Y1(3)/a_X1(2))*GeometryCalib.fx_fy(1);
501GeometryCalib.CoordUnit=[];% default value, to be updated by the calling function
502GeometryCalib.Tx_Ty_Tz=[a_X1(1)/GeometryCalib.fx_fy(1) a_Y1(1)/GeometryCalib.fx_fy(2) 1];
503R(1,:)=R(1,:)/GeometryCalib.fx_fy(1);
504R(2,:)=R(2,:)/GeometryCalib.fx_fy(2);
505R=[R;[0 0]];
506GeometryCalib.R=[R [0;0;-epsilon]];
507GeometryCalib.omc=(180/pi)*[acos(GeometryCalib.R(1,1)) 0 0];
508
509%------------------------------------------------------------------------
510% --- determine the tsai parameters for a view normal to the grid plane
511% NOT USED
512function GeometryCalib=calib_normal(Coord,est_dist,Intrinsic)
513%------------------------------------------------------------------------
514Calib.fx=str2num(get(handles.fx,'String'));
515Calib.fy=str2num(get(handles.fy,'String'));
516Calib.kc=str2num(get(handles.kc,'String'));
517Calib.Cx=str2num(get(handles.Cx,'String'));
518Calib.Cy=str2num(get(handles.Cy,'String'));
519%default
520if isempty(Calib.fx)
521    Calib.fx=25/0.012;
522end
523if isempty(Calib.fy)
524    Calib.fy=25/0.012;
525end
526if isempty(Calib.kc)
527    Calib.kc=0;
528end
529if isempty(Calib.Cx)||isempty(Calib.Cy)
530    huvmat=findobj(allchild(0),'Tag','uvmat');
531    hhuvmat=guidata(huvmat);
532    Calib.Cx=str2num(get(hhuvmat.num_Npx,'String'))/2;
533    Calib.Cx=str2num(get(hhuvmat.num_Npy,'String'))/2;
534end
535%tsai parameters
536Calib.dpx=0.012;%arbitrary
537Calib.dpy=0.012;
538Calib.sx=Calib.fx*Calib.dpx/(Calib.fy*Calib.dpy);
539Calib.f=Calib.fy*Calib.dpy;
540Calib.kappa1=Calib.kc/(Calib.f*Calib.f);
541
542%initial guess
543X=Coord(:,1);
544Y=Coord(:,2);
545Zmean=mean(Coord(:,3));
546x_ima=Coord(:,4)-Calib.Cx;
547y_ima=Coord(:,5)-Calib.Cy;
548XY_mat=[ones(size(X)) X Y];
549a_X1=XY_mat\x_ima; %transformation matrix for X
550a_Y1=XY_mat\y_ima;%transformation matrix for Y
551R=[a_X1(2),a_X1(3),0;a_Y1(2),a_Y1(3),0;0,0,-1];% rotation+ z axis reversal (upward)
552norm=sqrt(det(-R));
553calib_param(1)=0;% quadratic distortion
554calib_param(2)=a_X1(1);
555calib_param(3)=a_Y1(1);
556calib_param(4)=Calib.f/(norm*Calib.dpx)-R(3,3)*Zmean;
557calib_param(5)=angle(a_X1(2)+1i*a_X1(3));
558display(['initial guess=' num2str(calib_param)])
559
560%optimise the parameters: minimisation of error
561calib_param = fminsearch(@(calib_param) error_calib(calib_param,Calib,Coord),calib_param);
562
563GeometryCalib.CalibrationType='tsai_normal';
564GeometryCalib.focal=Calib.f;
565GeometryCalib.dpx_dpy=[Calib.dpx Calib.dpy];
566GeometryCalib.Cx_Cy=[Calib.Cx Calib.Cy];
567GeometryCalib.sx=Calib.sx;
568GeometryCalib.kappa1=calib_param(1);
569GeometryCalib.CoordUnit=[];% default value, to be updated by the calling function
570GeometryCalib.Tx_Ty_Tz=[calib_param(2) calib_param(3) calib_param(4)];
571alpha=calib_param(5);
572GeometryCalib.R=[cos(alpha) sin(alpha) 0;-sin(alpha) cos(alpha) 0;0 0 -1];
573%
574% %------------------------------------------------------------------------
575% function GeometryCalib=calib_3D_linear(Coord,Intrinsic)
576% %------------------------------------------------------------------------
577% coord_files=Intrinsic.coord_files;
578% if ischar(Intrinsic.coord_files)
579%     coord_files={coord_files};
580% end
581% if isempty(coord_files{1}) || isequal(coord_files,{''})
582%     coord_files={};
583% end
584% %retrieve the calibration points stored in the files listed in the popup list ListCoordFiles
585% x_1=Coord(:,4:5)';%px coordinates of the ref points
586%
587% nx=Intrinsic.Npx;
588% ny=Intrinsic.Npy;
589% x_1(2,:)=ny-x_1(2,:);%reverse the y image coordinates
590% X_1=Coord(:,1:3)';%phys coordinates of the ref points
591% n_ima=numel(coord_files)+1;
592% if ~isempty(coord_files)
593%     msgbox_uvmat('CONFIRMATION',['The xy coordinates of the calibration points in ' num2str(n_ima) ' planes will be used'])
594%     for ifile=1:numel(coord_files)
595%         t=xmltree(coord_files{ifile});
596%         s=convert(t);%convert to matlab structure
597%         if isfield(s,'GeometryCalib')
598%             if isfield(s.GeometryCalib,'SourceCalib')
599%                 if isfield(s.GeometryCalib.SourceCalib,'PointCoord')
600%                     PointCoord=s.GeometryCalib.SourceCalib.PointCoord;
601%                     Coord_file=zeros(length(PointCoord),5);%default
602%                     for i=1:length(PointCoord)
603%                         line=str2num(PointCoord{i});
604%                         Coord_file(i,4:5)=line(4:5);%px x
605%                         Coord_file(i,1:3)=line(1:3);%phys x
606%                     end
607%                     eval(['x_' num2str(ifile+1) '=Coord_file(:,4:5)'';']);
608%                     eval(['x_' num2str(ifile+1) '(2,:)=ny-x_' num2str(ifile+1) '(2,:);' ]);
609%                     eval(['X_' num2str(ifile+1) '=Coord_file(:,1:3)'';']);
610%                 end
611%             end
612%         end
613%     end
614% end
615% n_ima=numel(coord_files)+1;
616% est_dist=[0;0;0;0;0];
617% est_aspect_ratio=0;
618% est_fc=[1;1];
619% center_optim=0;
620% path_uvmat=which('uvmat');% check the path detected for source file uvmat
621% path_UVMAT=fileparts(path_uvmat); %path to UVMAT
622% run(fullfile(path_UVMAT,'toolbox_calib','go_calib_optim'));% apply fct 'toolbox_calib/go_calib_optim'
623% if exist('Rc_1','var')
624%     GeometryCalib.CalibrationType='3D_extrinsic';
625%     GeometryCalib.fx_fy=fc';
626%     GeometryCalib.Cx_Cy=cc';
627%     GeometryCalib.kc=kc(1);
628%     GeometryCalib.CoordUnit=[];% default value, to be updated by the calling function
629%     GeometryCalib.Tx_Ty_Tz=Tc_1';
630%     GeometryCalib.R=Rc_1;
631%     GeometryCalib.R(2,1:3)=-GeometryCalib.R(2,1:3);%inversion of the y image coordinate
632%     GeometryCalib.Tx_Ty_Tz(2)=-GeometryCalib.Tx_Ty_Tz(2);%inversion of the y image coordinate
633%     GeometryCalib.Cx_Cy(2)=ny-GeometryCalib.Cx_Cy(2);%inversion of the y image coordinate
634%     GeometryCalib.omc=(180/pi)*omc_1;%angles in degrees
635%     GeometryCalib.ErrorRMS=[];
636%     GeometryCalib.ErrorMax=[];
637% else
638%     msgbox_uvmat('ERROR',['calibration function ' fullfile('toolbox_calib','go_calib_optim') ' did not converge: use multiple views or option 3D_extrinsic'])
639%     GeometryCalib=[];
640% end
641
642%------------------------------------------------------------------------
643function GeometryCalib=calib_3D(Coord,est_dist,Intrinsic)
644%------------------------------------------------------------------
645
646path_uvmat=which('uvmat');% check the path detected for source file uvmat
647path_UVMAT=fileparts(path_uvmat); %path to UVMAT
648huvmat=findobj(allchild(0),'Tag','uvmat');
649hhuvmat=guidata(huvmat);
650if ~strcmp(get(hhuvmat.Scalar,'Visible'),'on')
651    msgbox_uvmat('ERROR','An image needs to be opened in uvmat for calibration')
652    return
653end
654% check_cond=0;
655
656coord_files=Intrinsic.coord_files;
657
658if ischar(coord_files)
659    coord_files={coord_files};
660end
661if isempty(coord_files{1}) || isequal(coord_files,{''})
662    coord_files={};
663end
664
665%retrieve the calibration points stored in the files listed in the popup list ListCoordFiles
666x_1=Coord(:,4:5)';%px coordinates of the ref points
667nx=str2num(get(hhuvmat.num_Npx,'String'));
668ny=str2num(get(hhuvmat.num_Npy,'String'));
669x_1(2,:)=ny-x_1(2,:);%reverse the y image coordinates
670X_1=Coord(:,1:3)';%phys coordinates of the ref points
671n_ima=numel(coord_files)+1;
672if ~isempty(coord_files)
673    msgbox_uvmat('CONFIRMATION',['The xy coordinates of the calibration points in ' num2str(n_ima) ' planes will be used'])
674    for ifile=1:numel(coord_files)
675        t=xmltree(coord_files{ifile});
676        s=convert(t);%convert to matlab structure
677        if isfield(s,'GeometryCalib')
678            if isfield(s.GeometryCalib,'SourceCalib')
679                if isfield(s.GeometryCalib.SourceCalib,'PointCoord')
680                    PointCoord=s.GeometryCalib.SourceCalib.PointCoord;
681                    Coord_file=zeros(length(PointCoord),5);%default
682                    for i=1:length(PointCoord)
683                        line=str2num(PointCoord{i});
684                        Coord_file(i,4:5)=line(4:5);%px x
685                        Coord_file(i,1:3)=line(1:3);%phys x
686                    end
687                    eval(['x_' num2str(ifile+1) '=Coord_file(:,4:5)'';']);
688                    eval(['x_' num2str(ifile+1) '(2,:)=ny-x_' num2str(ifile+1) '(2,:);' ]);
689                    eval(['X_' num2str(ifile+1) '=Coord_file(:,1:3)'';']);
690                end
691            end
692        end
693    end
694end
695n_ima=numel(coord_files)+1;
696%est_dist=[1;0;0;0;0];
697est_aspect_ratio=1;
698center_optim=0;
699run(fullfile(path_UVMAT,'toolbox_calib','go_calib_optim'));% apply fct 'toolbox_calib/go_calib_optim'
700
701if exist('Rc_1','var')
702    GeometryCalib.CalibrationType='3D_extrinsic';
703    GeometryCalib.fx_fy=fc';
704    GeometryCalib.Cx_Cy=cc';
705    ind_kc=find(kc);
706    if ~isempty(ind_kc)
707    GeometryCalib.kc=(kc(ind_kc))';%include cases quadr (one value kc(1)) and order_4 (2 values for kc)
708    end
709    GeometryCalib.CoordUnit=[];% default value, to be updated by the calling function
710    GeometryCalib.Tx_Ty_Tz=Tc_1';
711    GeometryCalib.R=Rc_1;
712    GeometryCalib.R(2,1:3)=-GeometryCalib.R(2,1:3);%inversion of the y image coordinate
713    GeometryCalib.Tx_Ty_Tz(2)=-GeometryCalib.Tx_Ty_Tz(2);%inversion of the y image coordinate
714    GeometryCalib.Cx_Cy(2)=ny-GeometryCalib.Cx_Cy(2);%inversion of the y image coordinate
715    GeometryCalib.omc=(180/pi)*omc_1;%angles in degrees
716    GeometryCalib.ErrorRMS=[];
717    GeometryCalib.ErrorMax=[];
718else
719    msgbox_uvmat('ERROR',['calibration function ' fullfile('toolbox_calib','go_calib_optim') ' did not converge: use multiple views or option 3D_extrinsic'])
720    GeometryCalib=[];
721end
722
723%------------------------------------------------------------------------
724function GeometryCalib=calib_3D_extrinsic(Coord,est_dist, Intrinsic)
725%------------------------------------------------------------------
726path_uvmat=which('geometry_calib');% check the path detected for source file uvmat
727path_UVMAT=fileparts(path_uvmat); %path to UVMAT
728x_1=double(Coord(:,4:5)');%image coordinates
729X_1=double(Coord(:,1:3)');% phys coordinates
730huvmat=findobj(allchild(0),'Tag','uvmat');
731hhuvmat=guidata(huvmat);
732if ~strcmp(get(hhuvmat.Scalar,'Visible'),'on')
733    msgbox_uvmat('ERROR','An image needs to be opened in uvmat for calibration')
734    return
735end
736ny=str2double(get(hhuvmat.num_Npy,'String'));
737x_1(2,:)=ny-x_1(2,:);%reverse the y image coordinates
738n_ima=1;
739GeometryCalib.CalibrationType='3D_extrinsic';
740fx=Intrinsic.fx;
741fy=Intrinsic.fy;
742Cx=Intrinsic.Cx;
743Cy=Intrinsic.Cy;
744kc=Intrinsic.kc;
745errormsg='';
746if isempty(fx)
747    errormsg='focal length fx needs to be introduced';
748elseif isempty(fy)
749    errormsg='focal length fy needs to be introduced';
750elseif isempty(Cx)
751    errormsg='shift Cx to image centre needs to be introduced';
752elseif isempty(Cy)
753    errormsg='shift Cy to image centre needs to be introduced';
754end
755if ~isempty(errormsg)
756    GeometryCalib=[];
757    msgbox_uvmat('ERROR',errormsg)
758    return
759end
760GeometryCalib.fx_fy(1)=fx;
761GeometryCalib.fx_fy(2)=fy;
762GeometryCalib.Cx_Cy(1)=Cx;
763GeometryCalib.Cx_Cy(2)=Cy;
764GeometryCalib.kc=kc;
765fct_path=fullfile(path_UVMAT,'toolbox_calib');
766addpath(fct_path)
767GeometryCalib.Cx_Cy(2)=ny-GeometryCalib.Cx_Cy(2);%reverse Cx_Cy(2) for calibration (inversion of px ordinate)
768kc=zeros(1,5);
769kc(1:numel(GeometryCalib.kc))=GeometryCalib.kc;
770[omc,Tc1,Rc1,H,x,ex,JJ] = compute_extrinsic(x_1,X_1,...
771    (GeometryCalib.fx_fy)',GeometryCalib.Cx_Cy',kc);
772rmpath(fct_path);
773GeometryCalib.CoordUnit='';% default value, to be updated by the calling function
774GeometryCalib.Tx_Ty_Tz=Tc1';
775%inversion of z axis
776GeometryCalib.R=Rc1;
777GeometryCalib.R(2,1:3)=-GeometryCalib.R(2,1:3);%inversion of the y image coordinate
778GeometryCalib.Tx_Ty_Tz(2)=-GeometryCalib.Tx_Ty_Tz(2);%inversion of the y image coordinate
779GeometryCalib.Cx_Cy(2)=ny-GeometryCalib.Cx_Cy(2);%inversion of the y image coordinate
780GeometryCalib.omc=(180/pi)*omc';
781
782%------------------------------------------------------------------------
783%function GeometryCalib=calib_tsai_heikkila(Coord)
784% TEST: NOT IMPLEMENTED
785%------------------------------------------------------------------
786% path_uvmat=which('uvmat');% check the path detected for source file uvmat
787% path_UVMAT=fileparts(path_uvmat); %path to UVMAT
788% path_calib=fullfile(path_UVMAT,'toolbox_calib_heikkila');
789% addpath(path_calib)
790% npoints=size(Coord,1);
791% Coord(:,1:3)=10*Coord(:,1:3);
792% Coord=[Coord zeros(npoints,2) -ones(npoints,1)];
793% [par,pos,iter,res,er,C]=cacal('dalsa',Coord);
794% GeometryCalib.CalibrationType='tsai';
795% GeometryCalib.focal=par(2);
796
797
798%------------------------------------------------------------------------
799% --- determine the rms of calibration error
800function ErrorRms=error_calib(calib_param,Calib,Coord)
801%------------------------------------------------------------------------
802%calib_param: vector of free calibration parameters (to optimise)
803%Calib: structure of the given calibration parameters
804%Coord: list of phys coordinates (columns 1-3, and pixel coordinates (columns 4-5)
805Calib.f=25;
806Calib.dpx=0.012;
807Calib.dpy=0.012;
808Calib.sx=1;
809Calib.Cx=512;
810Calib.Cy=512;
811Calib.kappa1=calib_param(1);
812Calib.Tx=calib_param(2);
813Calib.Ty=calib_param(3);
814Calib.Tz=calib_param(4);
815alpha=calib_param(5);
816Calib.R=[cos(alpha) sin(alpha) 0;-sin(alpha) cos(alpha) 0;0 0 -1];
817
818X=Coord(:,1);
819Y=Coord(:,2);
820Z=Coord(:,3);
821x_ima=Coord(:,4);
822y_ima=Coord(:,5);
823[Xpoints,Ypoints]=px_XYZ(Calib,[],X,Y,Z);
824ErrorRms(1)=sqrt(mean((Xpoints-x_ima).*(Xpoints-x_ima)));
825ErrorRms(2)=sqrt(mean((Ypoints-y_ima).*(Ypoints-y_ima)));
826ErrorRms=mean(ErrorRms);
827
828
829%------------------------------------------------------------------------
830% --- Executes on button press in STORE.
831function STORE_Callback(hObject, eventdata, handles)
832%------------------------------------------------------------------------
833Coord=get(handles.ListCoord,'Data');
834%Object=read_geometry_calib(Coord_cell);
835unitlist=get(handles.CoordUnit,'String');
836unit=unitlist{get(handles.CoordUnit,'value')};
837GeometryCalib.CoordUnit=unit;
838GeometryCalib.SourceCalib.PointCoord=Coord(:,1:5);
839huvmat=findobj(allchild(0),'Name','uvmat');
840hhuvmat=guidata(huvmat);%handles of elements in the GUI uvmat
841% RootPath='';
842% RootFile='';
843if ~isempty(hhuvmat.RootPath)&& ~isempty(hhuvmat.RootFile)
844    %     testhandle=1;
845    RootPath=get(hhuvmat.RootPath,'String');
846    RootFile=get(hhuvmat.RootFile,'String');
847    filebase=[fullfile(RootPath,RootFile) '~'];
848    while exist([filebase '.xml'],'file')
849        filebase=[filebase '~'];
850    end
851    outputfile=[filebase '.xml'];
852    errormsg=update_imadoc(GeometryCalib,outputfile,'GeometryCalib');
853    if ~strcmp(errormsg,'')
854        msgbox_uvmat('ERROR',errormsg);
855    end
856    listfile=get(handles.ListCoordFiles,'string');
857    if isequal(listfile,{''})
858        listfile={outputfile};
859    else
860        listfile=[listfile;{outputfile}];%update the list of coord files
861    end
862    set(handles.ListCoordFiles,'string',listfile);
863end
864ClearAll_Callback(hObject, eventdata, handles)% clear the current list and point plots
865
866% --------------------------------------------------------------------
867% --- Executes on button press in ClearAll: clear the list of calibration points
868function ClearAll_Callback(hObject, eventdata, handles)
869% --------------------------------------------------------------------
870set(handles.ListCoord,'Data',[])
871PLOT_Callback(hObject, eventdata, handles)
872update_calib_marker([]);%remove circle marker
873set(handles.APPLY,'backgroundColor',[1 0 0])% set APPLY button to red color: no calibration wanted without points
874set(handles.CheckEnableMouse,'value',1); %activate mouse to pick new points
875
876%------------------------------------------------------------------------
877% --- Executes on button press in CLEAR LIST
878function CLEAR_Callback(hObject, eventdata, handles)
879%------------------------------------------------------------------------
880set(handles.ListCoordFiles,'Value',1)
881set(handles.ListCoordFiles,'String',{''})
882
883%------------------------------------------------------------------------
884% --- Executes on selection change in CheckEnableMouse.
885function CheckEnableMouse_Callback(hObject, eventdata, handles)
886%------------------------------------------------------------------------
887choice=get(handles.CheckEnableMouse,'Value');
888if choice
889    huvmat=findobj(allchild(0),'tag','uvmat');
890    if ishandle(huvmat)
891        hhuvmat=guidata(huvmat);
892        set(hhuvmat.MenuRuler,'checked','off')%desactivate ruler
893        if get(hhuvmat.CheckEditObject,'Value')
894            set(hhuvmat.CheckEditObject,'Value',0)
895            uvmat('CheckEditObject_Callback',hhuvmat.CheckEditObject,[],hhuvmat)
896        end
897        set(hhuvmat.MenuRuler,'checked','off')%desactivate ruler
898    end
899end
900
901% --------------------------------------------------------------------
902
903% function MenuHelp_Callback(hObject, eventdata, handles)
904% web('http://servforge.legi.grenoble-inp.fr/projects/soft-uvmat/wiki/UvmatHelp#GeometryCalib')
905
906%
907function MenuSetScale_Callback(hObject,eventdata,handles)
908
909answer=msgbox_uvmat('INPUT_TXT','scale pixel/cm?','');
910%create test points
911huvmat=findobj(allchild(0),'Name','uvmat');%find the current uvmat interface handle
912hhuvmat=guidata(huvmat);
913if ~strcmp(get(hhuvmat.Scalar,'Visible'),'on')
914    msgbox_uvmat('ERROR','An image needs to be opened in uvmat for calibration')
915    return
916end
917set(handles.calib_type,'Value',1)% set calib option to 'rescale'
918npx=str2num(get(hhuvmat.num_Npx,'String'))/2;
919npy=str2num(get(hhuvmat.num_Npy,'String'))/2;
920Xima=[0.25*npx 0.75*npx 0.75*npx 0.25*npx]';
921Yima=[0.25*npy 0.25*npy 0.75*npy 0.75*npy]';
922x=Xima/str2num(answer);
923y=Yima/str2num(answer);
924Coord=[x y zeros(4,1) Xima Yima zeros(4,1)];
925set(handles.ListCoord,'Data',Coord)
926set(handles.APPLY,'BackgroundColor',[1 0 1])
927set(handles.CheckEnableMouse,'value',0); %desactivate mouse to avoid spurious points
928
929%------------------------------------------------------------------------
930function MenuCreateGrid_Callback(hObject, eventdata, handles)
931%------------------------------------------------------------------------
932CalibData=get(handles.geometry_calib,'UserData');
933Tinput=[];%default
934if isfield(CalibData,'grid')
935    Tinput=CalibData.grid;
936end
937[T,CalibData.grid]=create_grid(Tinput);%display the GUI create_grid
938set(handles.geometry_calib,'UserData',CalibData)
939
940%grid in phys space
941Coord=get(handles.ListCoord,'Data');
942Coord(1:size(T,1),1:3)=T;%update the existing list of phys coordinates from the GUI create_grid
943set(handles.ListCoord,'Data',Coord)
944set(handles.APPLY,'BackgroundColor',[1 0 1])
945set(handles.CheckEnableMouse,'value',0); %desactivate mouse to avoid spurious points
946
947% -----------------------------------------------------------------------
948% --- automatic grid dectection from local maxima of the images
949function MenuDetectGrid_Callback(hObject, eventdata, handles)
950%------------------------------------------------------------------------
951%% read the four last point coordinates in pixels
952Coord=get(handles.ListCoord,'Data');%read list of coordinates on geometry_calib
953nbpoints=size(Coord,1); %nbre of calibration points
954if nbpoints~=4
955    msgbox_uvmat('ERROR','four points must have be selected by the mouse to delimitate the phys grid area; the Ox axis will be defined by the two first points')
956    return
957end
958% corners_X=(Coord(end:-1:end-3,4)); %pixel absissa of the four corners
959% corners_Y=(Coord(end:-1:end-3,5));
960corners_X=(Coord(:,4)); %pixel absissa of the four corners
961corners_Y=(Coord(:,5));
962
963%%%%%%
964%   corners_X=1000*[1.5415  1.7557 1.7539 1.5415]';
965%   corners_Y=1000*[1.1515 1.1509 1.3645  1.3639]';
966
967%reorder the last two points (the two first in the list) if needed
968angles=angle((corners_X-corners_X(1))+1i*(corners_Y-corners_Y(1)));
969if abs(angles(4)-angles(2))>abs(angles(3)-angles(2))
970    X_end=corners_X(4);
971    Y_end=corners_Y(4);
972    corners_X(4)=corners_X(3);
973    corners_Y(4)=corners_Y(3);
974    corners_X(3)=X_end;
975    corners_Y(3)=Y_end;
976end
977
978%% initiate the grid in phys coordinates
979CalibData=get(handles.geometry_calib,'UserData');%get information stored on the GUI geometry_calib
980grid_input=[];%default
981if isfield(CalibData,'grid')
982    grid_input=CalibData.grid;%retrieve the previously used grid
983end
984[T,CalibData.grid,CalibData.grid.CheckWhite,CalibData.grid.FilterWindow]=create_grid(grid_input,'detect_grid');%display the GUI create_grid, read the set of phys coordinates T
985set(handles.geometry_calib,'UserData',CalibData)%store the phys grid parameters for later use
986X=[CalibData.grid.x_0 CalibData.grid.x_1 CalibData.grid.x_0 CalibData.grid.x_1]';%corner absissa in the phys coordinates (cm)
987Y=[CalibData.grid.y_0 CalibData.grid.y_0 CalibData.grid.y_1 CalibData.grid.y_1]';%corner ordinates in the phys coordinates (cm)
988
989%% read the current image, displayed in the GUI uvmat
990huvmat=findobj(allchild(0),'Name','uvmat');
991UvData=get(huvmat,'UserData');
992A=UvData.Field.A;%currently displayed image
993npxy=size(A);
994
995%% calculate transform matrices for plane projection: rectangle assumed to be viewed in perspective
996% reference: http://alumni.media.mit.edu/~cwren/interpolator/ by Christopher R. Wren
997B = [ X Y ones(size(X)) zeros(4,3)        -X.*corners_X -Y.*corners_X ...
998    zeros(4,3)        X Y ones(size(X)) -X.*corners_Y -Y.*corners_Y ];
999B = reshape (B', 8 , 8 )';
1000D = [ corners_X , corners_Y ];
1001D = reshape (D', 8 , 1 );
1002l = (B' * B)\B' * D;
1003Amat = reshape([l(1:6)' 0 0 1 ],3,3)';
1004C = [l(7:8)' 1];
1005
1006%% transform grid image into 'phys' coordinates
1007GeometryCalib.CalibrationType='3D_linear';
1008GeometryCalib.fx_fy=[1 1];
1009GeometryCalib.Tx_Ty_Tz=[Amat(1,3) Amat(2,3) 1];
1010GeometryCalib.R=[Amat(1,1),Amat(1,2),0;Amat(2,1),Amat(2,2),0;C(1),C(2),0];
1011GeometryCalib.CoordUnit='cm';
1012path_uvmat=which('uvmat');% check the path detected for source file uvmat
1013path_UVMAT=fileparts(path_uvmat); %path to UVMAT
1014addpath(fullfile(path_UVMAT,'transform_field'))
1015Data.ListVarName={'Coord_y','Coord_x','A'};
1016Data.VarDimName={'Coord_y','Coord_x',{'Coord_y','Coord_x'}};
1017if ndims(A)==3
1018    A=mean(A,3);
1019end
1020Data.A=A-min(min(A));
1021Data.Coord_y=[npxy(1)-0.5 0.5];
1022Data.Coord_x=[0.5 npxy(2)];
1023Data.CoordUnit='pixel';
1024Calib.GeometryCalib=GeometryCalib;
1025DataOut=phys(Data,Calib);
1026rmpath(fullfile(path_UVMAT,'transform_field'))
1027Amod=DataOut.A;% current image expressed in 'phys' coord
1028Rangx=DataOut.Coord_x;% x coordinates of first and last pixel centres in phys
1029Rangy=DataOut.Coord_y;% y coordinates of first and last pixel centres in phys
1030if CalibData.grid.CheckWhite
1031    Amod=double(Amod);%case of white grid markers: will look for image maxima
1032else
1033    Amod=-double(Amod);%case of black grid markers: will look for image minima
1034end
1035
1036%%%%%%filterfor i;proved detection of dots
1037if ~isequal(CalibData.grid.FilterWindow,0)
1038    %definition of the cos shape matrix filter
1039    FilterBoxSize_x=CalibData.grid.FilterWindow;
1040    FilterBoxSize_y=CalibData.grid.FilterWindow;
1041    ix=1/2-FilterBoxSize_x/2:-1/2+FilterBoxSize_x/2;%
1042    iy=1/2-FilterBoxSize_y/2:-1/2+FilterBoxSize_y/2;%
1043    %del=np/3;
1044    %fct=exp(-(ix/del).^2);
1045    fct2_x=cos(ix/((FilterBoxSize_x-1)/2)*pi/2);
1046    fct2_y=cos(iy/((FilterBoxSize_y-1)/2)*pi/2);
1047    %Mfiltre=(ones(5,5)/5^2);
1048    Mfiltre=fct2_y'*fct2_x;
1049    Mfiltre=Mfiltre/(sum(sum(Mfiltre)));%normalize filter
1050   
1051    if ndims(Amod)==3
1052        Amod=filter2(Mfiltre,sum(Amod,3));%filter the input image, after summation on the color component (for color images)
1053    else
1054        Amod=filter2(Mfiltre,Amod);
1055    end
1056end
1057%%%%%%%%%%%%%%
1058
1059
1060%% detection of local image extrema in each direction
1061Dx=(Rangx(2)-Rangx(1))/(npxy(2)-1); %x mesh in real space
1062Dy=(Rangy(2)-Rangy(1))/(npxy(1)-1); %y mesh in real space
1063ind_range_x=ceil(abs(GeometryCalib.R(1,1)*CalibData.grid.Dx/3));% range of search of image ma around each point obtained by linear interpolation from the marked points
1064ind_range_y=ceil(abs(GeometryCalib.R(2,2)*CalibData.grid.Dy/3));% range of search of image ma around each point obtained by linear interpolation from the marked points
1065nbpoints=size(T,1);
1066TIndex=ones(size(T));% image indices corresponding to point coordinates
1067%look for image maxima around each expected grid point
1068for ipoint=1:nbpoints
1069    i0=1+round((T(ipoint,1)-Rangx(1))/Dx);% x index of the expected point in the phys image Amod
1070    j0=1+round((T(ipoint,2)-Rangy(1))/Dy);% y index of the expected point in the phys image Amod
1071    j0min=max(j0-ind_range_y,1);% min y index selected for the subimage (cut at the edge to avoid index <1)
1072    j0max=min(j0+ind_range_y,size(Amod,1));% max y index selected for the subimage (cut at the edge to avoid index > size)
1073    i0min=max(i0-ind_range_x,1);% min x index selected for the subimage (cut at the edge to avoid index <1)
1074    i0max=min(i0+ind_range_x,size(Amod,2));% max x index selected for the subimage (cut at the edge to avoid index > size)
1075    Asub=Amod(j0min:j0max,i0min:i0max); %subimage used to find brigthness extremum
1076    x_profile=sum(Asub,1);%profile of subimage summed over y
1077    y_profile=sum(Asub,2);%profile of subimage summed over x
1078   
1079    [tild,ind_x_max]=max(x_profile);% index of max for the x profile
1080    [tild,ind_y_max]=max(y_profile);% index of max for the y profile
1081    %sub-pixel improvement using moments
1082    x_shift=0;
1083    y_shift=0;
1084    if ind_x_max+2<=numel(x_profile) && ind_x_max-2>=1
1085        Atop=x_profile(ind_x_max-2:ind_x_max+2);% extract x profile around the max
1086        x_shift=sum(Atop.*[-2 -1 0 1 2])/sum(Atop);
1087    end
1088    if ind_y_max+2<=numel(y_profile) && ind_y_max-2>=1
1089        Atop=y_profile(ind_y_max-2:ind_y_max+2);% extract y profile around the max
1090        y_shift=sum(Atop.*[-2 -1 0 1 2]')/sum(Atop);
1091    end
1092    %%%%
1093    %     if ipoint==9
1094    %                 figure(11)
1095    %   imagesc(Asub)
1096    %     figure(12)
1097    %     plot(x_profile,'r')
1098    %     hold on
1099    %     plot(y_profile,'b')
1100    %     grid on
1101    %     end
1102    %%%%
1103    TIndex(ipoint,1)=(i0min+ind_x_max-1+x_shift);% x position of the maximum (in index of Amod)
1104    TIndex(ipoint,2)=(j0min+ind_y_max-1+y_shift);% y position of the maximum (in index of Amod)
1105end
1106Tmod(:,1)=(TIndex(:,1)-1)*Dx+Rangx(1);
1107Tmod(:,2)=(TIndex(:,2)-1)*Dy+Rangy(1);
1108%Tmod=T(:,(1:2))+Delta;% 'phys' coordinates of the detected points
1109[Xpx,Ypx]=px_XYZ(GeometryCalib,[],Tmod(:,1),Tmod(:,2));% image coordinates of the detected points
1110Coord=[T Xpx Ypx zeros(size(T,1),1)];
1111set(handles.ListCoord,'Data',Coord)
1112PLOT_Callback(hObject, eventdata, handles)
1113set(handles.APPLY,'BackgroundColor',[1 0 1])
1114set(handles.CheckEnableMouse,'value',0); %desactivate mouse to avoid spurious points
1115
1116
1117%-----------------------------------------------------------------------
1118function MenuTranslatePoints_Callback(hObject, eventdata, handles)
1119%-----------------------------------------------------------------------
1120%hcalib=get(handles.calib_type,'parent');%handles of the GUI geometry_calib
1121CalibData=get(handles.geometry_calib,'UserData');
1122Tinput=[];%default
1123if isfield(CalibData,'translate')
1124    Tinput=CalibData.translate;
1125end
1126T=translate_points(Tinput);%display translate_points GUI and get shift parameters
1127CalibData.translate=T;
1128set(handles.geometry_calib,'UserData',CalibData)
1129%translation
1130Coord=get(handles.ListCoord,'Data');
1131Coord(:,1)=T(1)+Coord(:,1);
1132Coord(:,2)=T(2)+Coord(:,2);
1133Coord(:,3)=T(3)+Coord(:,3);
1134set(handles.ListCoord,'Data',Coord);
1135set(handles.APPLY,'BackgroundColor',[1 0 1])
1136
1137% --------------------------------------------------------------------
1138function MenuRotatePoints_Callback(hObject, eventdata, handles)
1139%hcalib=get(handles.calib_type,'parent');%handles of the GUI geometry_calib
1140CalibData=get(handles.geometry_calib,'UserData');
1141Tinput=[];%default
1142if isfield(CalibData,'rotate')
1143    Tinput=CalibData.rotate;
1144end
1145T=rotate_points(Tinput);%display rotate_points GUI to introduce rotation parameters
1146CalibData.rotate=T;
1147set(handles.geometry_calib,'UserData',CalibData)
1148%-----------------------------------------------------
1149%rotation
1150Phi=T(1);
1151O_x=0;%default
1152O_y=0;%default
1153if numel(T)>=2
1154    O_x=T(2);%default
1155end
1156if numel(T)>=3
1157    O_y=T(3);%default
1158end
1159Coord=get(handles.ListCoord,'Data');
1160r1=cos(pi*Phi/180);
1161r2=-sin(pi*Phi/180);
1162r3=sin(pi*Phi/180);
1163r4=cos(pi*Phi/180);
1164x=Coord(:,1)-O_x;
1165y=Coord(:,2)-O_y;
1166Coord(:,1)=r1*x+r2*y;
1167Coord(:,2)=r3*x+r4*y;
1168set(handles.ListCoord,'Data',Coord)
1169set(handles.APPLY,'BackgroundColor',[1 0 1])
1170
1171% --------------------------------------------------------------------
1172function MenuFlip_xy_Callback(hObject, eventdata, handles)
1173Coord=get(handles.ListCoord,'Data');
1174Coord(:,1)=-Coord(:,1);
1175Coord(:,2)=-Coord(:,2);
1176set(handles.ListCoord,'Data',Coord)
1177
1178% --------------------------------------------------------------------
1179function MenuFlip_xz_Callback(hObject, eventdata, handles)
1180Coord=get(handles.ListCoord,'Data');
1181Coord(:,1)=-Coord(:,1);
1182Coord(:,3)=-Coord(:,3);
1183set(handles.ListCoord,'Data',Coord)
1184
1185% --------------------------------------------------------------------
1186function MenuImportPoints_Callback(hObject, eventdata, handles)
1187fileinput=browse_xml(hObject, eventdata, handles);
1188if isempty(fileinput)
1189    return
1190end
1191[s,errormsg]=imadoc2struct(fileinput,'GeometryCalib');
1192if ~isfield(s,'GeometryCalib')
1193    msgbox_uvmat('ERROR','invalid input file: no geometry_calib data')
1194    return
1195end
1196GeometryCalib=s.GeometryCalib;
1197if ~(isfield(GeometryCalib,'SourceCalib')&&isfield(GeometryCalib.SourceCalib,'PointCoord'))
1198    msgbox_uvmat('ERROR','invalid input file: no calibration points')
1199    return
1200end
1201Coord=GeometryCalib.SourceCalib.PointCoord;
1202Coord=[Coord zeros(size(Coord,1),1)];
1203set(handles.ListCoord,'Data',Coord)
1204PLOT_Callback(handles.geometry_calib, [], handles)
1205set(handles.APPLY,'BackgroundColor',[1 0 1])
1206set(handles.CheckEnableMouse,'value',0); %desactivate mouse to avoid modifications by default
1207
1208% -----------------------------------------------------------------------
1209function MenuImportIntrinsic_Callback(hObject, eventdata, handles)
1210%------------------------------------------------------------------------
1211fileinput=browse_xml(hObject, eventdata, handles);
1212if isempty(fileinput)
1213    return
1214end
1215[s,errormsg]=imadoc2struct(fileinput,'GeometryCalib');
1216GeometryCalib=s.GeometryCalib;
1217display_intrinsic(GeometryCalib,handles)
1218
1219% -----------------------------------------------------------------------
1220function MenuImportAll_Callback(hObject, eventdata, handles)
1221%------------------------------------------------------------------------
1222fileinput=browse_xml(hObject, eventdata, handles);
1223if ~isempty(fileinput)
1224    loadfile(handles,fileinput)
1225end
1226set(handles.CheckEnableMouse,'value',0); %desactivate mouse to avoid modifications by default
1227
1228% -----------------------------------------------------------------------
1229% --- Executes on menubar option Import/Grid file: introduce previous grid files
1230function MenuGridFile_Callback(hObject, eventdata, handles)
1231% -----------------------------------------------------------------------
1232inputfile=browse_xml(hObject, eventdata, handles);
1233listfile=get(handles.ListCoordFiles,'String');
1234if isequal(listfile,{''})
1235    listfile={inputfile};
1236else
1237    listfile=[listfile;{inputfile}];%update the list of coord files
1238end
1239set(handles.ListCoordFiles,'String',listfile);
1240
1241
1242%------------------------------------------------------------------------
1243function fileinput=browse_xml(hObject, eventdata, handles)
1244%------------------------------------------------------------------------
1245fileinput=[];%default
1246oldfile=''; %default
1247UserData=get(handles.geometry_calib,'UserData');
1248if isfield(UserData,'XmlInputFile')
1249    oldfile=UserData.XmlInputFile;
1250end
1251[FileName, PathName, filterindex] = uigetfile( ...
1252    {'*.xml;*.mat', ' (*.xml,*.mat)';
1253    '*.xml',  '.xml files '; ...
1254    '*.mat',  '.mat matlab files '}, ...
1255    'Pick a file',oldfile);
1256fileinput=[PathName FileName];%complete file name
1257testblank=findstr(fileinput,' ');%look for blanks
1258if ~isempty(testblank)
1259    msgbox_uvmat('ERROR','forbidden input file name or path: no blank character allowed')
1260    return
1261end
1262sizf=size(fileinput);
1263if (~ischar(fileinput)||~isequal(sizf(1),1)),return;end
1264UserData.XmlInputFile=fileinput;
1265set(handles.geometry_calib,'UserData',UserData)%record current file foer further use of browser
1266
1267% -----------------------------------------------------------------------
1268function Heading=loadfile(handles,fileinput)
1269%------------------------------------------------------------------------
1270Heading=[];%default
1271[s,errormsg]=imadoc2struct(fileinput,'Heading','GeometryCalib');
1272if ~isempty(errormsg)
1273    msgbox_uvmat('ERROR',errormsg)
1274    return
1275end
1276if ~isempty(s.Heading)
1277    Heading=s.Heading;
1278end
1279
1280GeometryCalib=s.GeometryCalib;
1281fx=1;fy=1;Cx=0;Cy=0;kc=0; %default
1282CoordCell={};
1283Tabchar={};%default
1284val_cal=1;%default
1285if ~isempty(GeometryCalib)
1286    % choose the calibration option
1287    if isfield(GeometryCalib,'CalibrationType')
1288        calib_list=get(handles.calib_type,'String');
1289        for ilist=1:numel(calib_list)
1290            if strcmp(calib_list{ilist},GeometryCalib.CalibrationType)
1291                val_cal=ilist;
1292                break
1293            end
1294        end
1295    end
1296    display_intrinsic(GeometryCalib,handles)%intrinsic param
1297    %extrinsic param
1298    if isfield(GeometryCalib,'Tx_Ty_Tz')
1299        Tx_Ty_Tz=GeometryCalib.Tx_Ty_Tz;
1300        set(handles.Tx,'String',num2str(GeometryCalib.Tx_Ty_Tz(1),4))
1301        set(handles.Ty,'String',num2str(GeometryCalib.Tx_Ty_Tz(2),4))
1302        set(handles.Tz,'String',num2str(GeometryCalib.Tx_Ty_Tz(3),4))
1303    end
1304    if isfield(GeometryCalib,'omc')
1305        set(handles.Phi,'String',num2str(GeometryCalib.omc(1),4))
1306        set(handles.Theta,'String',num2str(GeometryCalib.omc(2),4))
1307        set(handles.Psi,'String',num2str(GeometryCalib.omc(3),4))
1308    end
1309    if isfield(GeometryCalib,'SourceCalib')&& isfield(GeometryCalib.SourceCalib,'PointCoord')
1310        calib=GeometryCalib.SourceCalib.PointCoord;
1311        Coord=[calib zeros(size(calib,1),1)];
1312        set(handles.ListCoord,'Data',Coord)
1313    end
1314    PLOT_Callback(handles.geometry_calib, [], handles)
1315    set(handles.APPLY,'BackgroundColor',[1 0 1])
1316end
1317set(handles.calib_type,'Value',val_cal)
1318
1319if isempty(CoordCell)% allow mouse action by default in the absence of input points
1320    set(handles.CheckEnableMouse,'Value',1)
1321    set(handles.CheckEnableMouse,'BackgroundColor',[1 1 0])
1322else % does not allow mouse action by default in the presence of input points
1323    set(handles.CheckEnableMouse,'Value',0)
1324    set(handles.CheckEnableMouse,'BackgroundColor',[0.7 0.7 0.7])
1325end
1326
1327%------------------------------------------------------------------------
1328%---display calibration intrinsic parameters
1329function display_intrinsic(GeometryCalib,handles)
1330%------------------------------------------------------------------------
1331fx=[];
1332fy=[];
1333if isfield(GeometryCalib,'fx_fy')
1334    fx=GeometryCalib.fx_fy(1);
1335    fy=GeometryCalib.fx_fy(2);
1336end
1337Cx_Cy=[0 0];%default
1338if isfield(GeometryCalib,'Cx_Cy')
1339    Cx_Cy=GeometryCalib.Cx_Cy;
1340end
1341kc=0;
1342if isfield(GeometryCalib,'kc')
1343    kc=GeometryCalib.kc; %* GeometryCalib.focal*GeometryCalib.focal;
1344end
1345set(handles.fx,'String',num2str(fx,5))
1346set(handles.fy,'String',num2str(fy,5))
1347set(handles.Cx,'String',num2str(Cx_Cy(1),'%1.1f'))
1348set(handles.Cy,'String',num2str(Cx_Cy(2),'%1.1f'))
1349%set(handles.kc,'String',num2str(kc,'%1.4f'))
1350set(handles.kc,'String',num2str(kc,4))
1351
1352%------------------------------------------------------------------------
1353% ---display calibration extrinsic parameters
1354function display_extrinsic(GeometryCalib,handles)
1355%------------------------------------------------------------------------
1356set(handles.Tx,'String',num2str(GeometryCalib.Tx_Ty_Tz(1),4))
1357set(handles.Ty,'String',num2str(GeometryCalib.Tx_Ty_Tz(2),4))
1358set(handles.Tz,'String',num2str(GeometryCalib.Tx_Ty_Tz(3),4))
1359set(handles.Phi,'String',num2str(GeometryCalib.omc(1),4))
1360set(handles.Theta,'String',num2str(GeometryCalib.omc(2),4))
1361set(handles.Psi,'String',num2str(GeometryCalib.omc(3),4))
1362
1363%------------------------------------------------------------------------
1364% --- executes when user attempts to close geometry_calib.
1365function geometry_calib_CloseRequestFcn(hObject, eventdata, handles)
1366%------------------------------------------------------------------------
1367delete(hObject); % closes the figure
1368
1369%------------------------------------------------------------------------
1370% --- executes on button press in PLOT.
1371%------------------------------------------------------------------------
1372function PLOT_Callback(hObject, eventdata, handles)
1373huvmat=findobj(allchild(0),'Name','uvmat');%find the current uvmat interface handle
1374hhuvmat=guidata(huvmat); %handles of GUI elements in uvmat
1375h_menu_coord=findobj(huvmat,'Tag','TransformName');
1376menu=get(h_menu_coord,'String');
1377choice=get(h_menu_coord,'Value');
1378option='';
1379if iscell(menu)
1380    option=menu{choice};
1381end
1382Coord=get(handles.ListCoord,'Data');
1383if ~isempty(Coord)
1384    if isequal(option,'phys')
1385        Coord_plot=Coord(:,1:3);
1386    elseif isempty(option);%optionoption,'px')||isequal(option,'')
1387        Coord_plot=Coord(:,4:5);
1388    else
1389        msgbox_uvmat('ERROR','the choice in menu_coord of uvmat must be blank or phys ')
1390    end
1391end
1392
1393set(0,'CurrentFigure',huvmat)
1394set(huvmat,'CurrentAxes',hhuvmat.PlotAxes)
1395hh=findobj('Tag','calib_points');
1396if  ~isempty(Coord) && isempty(hh)
1397    hh=line(Coord_plot(:,1),Coord_plot(:,2),'Color','m','Tag','calib_points','LineStyle','none','Marker','+','MarkerSize',10);
1398elseif isempty(Coord)%empty list of points, suppress the plot
1399    delete(hh)
1400else
1401    set(hh,'XData',Coord_plot(:,1))
1402    set(hh,'YData',Coord_plot(:,2))
1403end
1404pause(.1)
1405figure(handles.geometry_calib)
1406
1407%------------------------------------------------------------------------
1408% --- Executes on button press in Copy: display Coord on the Matlab work space
1409%------------------------------------------------------------------------
1410function Copy_Callback(hObject, eventdata, handles)
1411global Coord
1412evalin('base','global Coord')%make CurData global in the workspace
1413Coord=get(handles.ListCoord,'Data');
1414display('coordinates of calibration points (phys,px,marker) :')
1415evalin('base','Coord') %display CurData in the workspace
1416commandwindow; %brings the Matlab command window to the front
1417
1418%------------------------------------------------------------------------
1419% --- Executes when selected cell(s) is changed in ListCoord.
1420%------------------------------------------------------------------------
1421function ListCoord_CellSelectionCallback(hObject, eventdata, handles)
1422if ~isempty(eventdata.Indices)
1423    iline=eventdata.Indices(1);% selected line number
1424    set(handles.CoordLine,'String',num2str(iline))
1425    Data=get(handles.ListCoord,'Data');
1426    update_calib_marker(Data(iline,:))
1427end
1428
1429%------------------------------------------------------------------------
1430% --- Executes when entered data in editable cell(s) in ListCoord.
1431%------------------------------------------------------------------------
1432function ListCoord_CellEditCallback(hObject, eventdata, handles)
1433
1434Input=str2num(eventdata.EditData);%pasted input
1435Coord=get(handles.ListCoord,'Data');
1436iline=eventdata.Indices(1);% selected line number
1437if size(Coord,1)<iline+numel(Input)
1438    Coord=[Coord ; zeros(iline+numel(Input)-size(Coord,1),6)];% append zeros to fit the new column
1439end
1440Coord(iline:iline+numel(Input)-1,eventdata.Indices(2))=Input';
1441set(handles.ListCoord,'Data',Coord)
1442PLOT_Callback(hObject, eventdata, handles)
1443
1444%------------------------------------------------------------------------
1445% --- 'key_press_fcn:' function activated when a key is pressed on the keyboard
1446%------------------------------------------------------------------------
1447function ListCoord_KeyPressFcn(hObject, eventdata, handles)
1448iline=str2num(get(handles.CoordLine,'String'));
1449xx=double(get(handles.geometry_calib,'CurrentCharacter'));%get the keyboard character
1450if ismember(xx,[28 29 30 31])% directional arrow
1451    Coord=get(handles.ListCoord,'Data');
1452    switch xx
1453        case 30 % arrow upward
1454            iline=iline-1;
1455        case 31% arrow downward
1456            iline=iline+1;
1457    end
1458    if iline>=1 && iline<=size(Coord,1)
1459        set(handles.CoordLine,'String',num2str(iline))
1460        update_calib_marker(Coord(iline,1:5))% show the point corresponding to the selected line
1461    end
1462else
1463    set(handles.APPLY,'BackgroundColor',[1 0 1])% paint APPLY in magenta to indicate that the table content has be modified
1464    if ismember(xx,[127 31])% delete, or downward
1465        Coord=get(handles.ListCoord,'Data');
1466        iline=str2double(get(handles.CoordLine,'String'));
1467        if isequal(xx, 31)
1468            if isequal(iline,size(Coord,1))% arrow downward
1469                Coord=[Coord;zeros(1,size(Coord,2))];
1470            end
1471        else
1472            Coord(iline,:)=[];% suppress the current line
1473        end
1474        set(handles.ListCoord,'Data',Coord);
1475    end
1476end
1477
1478%------------------------------------------------------------------------
1479% --- update the plot of calibration points
1480%------------------------------------------------------------------------
1481% draw a circle around the point defined by the input coordinates Coord as given by line in the table Listcoord
1482function update_calib_marker(Coord)
1483
1484%% read config on uvmat
1485huvmat=findobj(allchild(0),'Name','uvmat');%find the current uvmat interface handle
1486hhuvmat=guidata(huvmat);
1487hhh=findobj(hhuvmat.PlotAxes,'Tag','calib_marker');
1488if numel(Coord)<5
1489    if ~isempty(hhh)
1490        delete(hhh)%delete the circle marker in case of no valid input
1491    end
1492    return
1493end
1494menu=get(hhuvmat.TransformName,'String');
1495choice=get(hhuvmat.TransformName,'Value');
1496option='';
1497if iscell(menu)
1498    option=menu{choice};
1499end
1500
1501%% read appropriate coordinates (px or phys) in the table ListCoord
1502if isequal(option,'phys') % use phys coord
1503    XCoord=Coord(1);
1504    YCoord=Coord(2);
1505elseif isempty(option)% use coord in pixels
1506    XCoord=Coord(4);
1507    YCoord=Coord(5);
1508else
1509    msgbox_uvmat('ERROR','the choice in menu_coord of uvmat must be blank or phys ')
1510    return
1511end
1512
1513%% adjust the plot limits if needed
1514xlim=get(hhuvmat.PlotAxes,'XLim');
1515ylim=get(hhuvmat.PlotAxes,'YLim');
1516ind_range=max(abs(xlim(2)-xlim(1)),abs(ylim(end)-ylim(1)))/25;%defines the size of the circle marker
1517check_xlim=0;
1518if XCoord>xlim(2)
1519    xlim=xlim+XCoord-xlim(2)+ind_range;% translate plot limit
1520    check_xlim=1;
1521elseif XCoord<xlim(1)
1522    xlim=xlim-XCoord+xlim(1)-ind_range;% translate plot limit
1523    check_xlim=1;
1524end
1525if check_xlim
1526    set(hhuvmat.PlotAxes,'XLim',xlim);
1527    set(hhuvmat.num_MaxX,'String',num2str(xlim(2)));
1528    set(hhuvmat.num_MinX,'String',num2str(xlim(1)));
1529end
1530check_ylim=0;
1531if YCoord>ylim(2)
1532    ylim=ylim+YCoord-ylim(2)+ind_range;% translate plot limit
1533    check_ylim=1;
1534elseif YCoord<ylim(1)
1535    ylim=ylim-YCoord+ylim(1)-ind_range;% translate plot limit
1536    check_ylim=1;
1537end
1538if check_ylim
1539    set(hhuvmat.PlotAxes,'YLim',ylim);
1540    set(hhuvmat.num_MaxY,'String',num2str(ylim(2)));
1541    set(hhuvmat.num_MinY,'String',num2str(ylim(1)));
1542end
1543
1544%% plot a circle around the selected point
1545if isempty(hhh)
1546    set(0,'CurrentFig',huvmat)
1547    set(huvmat,'CurrentAxes',hhuvmat.PlotAxes)
1548    rectangle('Curvature',[1 1],...
1549        'Position',[XCoord-ind_range/2 YCoord-ind_range/2 ind_range ind_range],'EdgeColor','m',...
1550        'LineStyle','-','Tag','calib_marker');
1551else
1552    set(hhh,'Position',[XCoord-ind_range/2 YCoord-ind_range/2 ind_range ind_range])
1553end
1554
1555%------------------------------------------------------------------------
1556% --- Executes on button press in ClearPoint: remove the selected line in the table Coord
1557%------------------------------------------------------------------------
1558function ClearPoint_Callback(hObject, eventdata, handles)
1559
1560Coord=get(handles.ListCoord,'Data');
1561iline=str2num(get(handles.CoordLine,'String'));
1562if isempty(iline)
1563    msgbox_uvmat('WARNING','no line suppressed, select a line in the table')
1564else
1565    answer=msgbox_uvmat('INPUT_Y-N',['suppress line ' num2str(iline) '?']);
1566    if isequal(answer,'Yes')
1567        Coord(iline,:)=[];
1568        set(handles.APPLY,'BackgroundColor',[1 0 1])
1569        set(handles.ListCoord,'Data',Coord);
1570        set(handles.CoordLine,'String','')
1571        PLOT_Callback(hObject,eventdata,handles)
1572        update_calib_marker([]);%remove circle marker
1573    end
1574end
1575
1576
1577
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