1 | %'set_grid':produce grid for PIV with one or two images (stereo case) |
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2 | %------------------------------------------------------------------------ |
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3 | % function varargout = set_grid(varargin) |
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4 | % associated with the GUI set_grid.fig |
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5 | |
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6 | %======================================================================= |
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7 | % Copyright 2008-2024, LEGI UMR 5519 / CNRS UGA G-INP, Grenoble, France |
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8 | % http://www.legi.grenoble-inp.fr |
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9 | % Joel.Sommeria - Joel.Sommeria (A) univ-grenoble-alpes.fr |
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10 | % |
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11 | % This file is part of the toolbox UVMAT. |
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12 | % |
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13 | % UVMAT is free software; you can redistribute it and/or modify |
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14 | % it under the terms of the GNU General Public License as published |
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15 | % by the Free Software Foundation; either version 2 of the license, |
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16 | % or (at your option) any later version. |
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17 | % |
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18 | % UVMAT is distributed in the hope that it will be useful, |
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19 | % but WITHOUT ANY WARRANTY; without even the implied warranty of |
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20 | % MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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21 | % GNU General Public License (see LICENSE.txt) for more details. |
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22 | %======================================================================= |
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23 | |
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24 | function varargout = set_grid(varargin) |
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25 | |
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26 | % Last Modified by GUIDE v2.5 26-Jun-2015 08:54:56 |
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27 | |
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28 | % Begin initialization code - DO NOT PLOT |
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29 | gui_Singleton = 1; |
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30 | gui_State = struct('gui_Name', mfilename, ... |
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31 | 'gui_Singleton', gui_Singleton, ... |
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32 | 'gui_OpeningFcn', @set_grid_OpeningFcn, ... |
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33 | 'gui_OutputFcn', @set_grid_OutputFcn, ... |
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34 | 'gui_LayoutFcn', [] , ... |
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35 | 'gui_Callback', []); |
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36 | |
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37 | if nargin && ischar(varargin{1}) |
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38 | gui_State.gui_Callback = str2func(varargin{1}); |
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39 | end |
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40 | if nargout |
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41 | [varargout{1:nargout}] = gui_mainfcn(gui_State, varargin{:}); |
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42 | else |
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43 | gui_mainfcn(gui_State, varargin{:}); |
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44 | end |
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45 | |
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46 | %------------------------------------------------------------------- |
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47 | % --- Executes just before set_grid is made visible. |
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48 | %INPUT: |
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49 | % handles: handles of the set_grid interface elements |
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50 | %'IndexObj': index of the object (on the UvData list) that set_grid will modify |
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51 | % if =[] or absent: index still undefined (create mode in uvmat) |
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52 | % if=0; no associated object (used for series), the button 'PLOT' is then unvisible |
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53 | %'data': read from an existing object selected in the interface |
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54 | % .TITLE : class of object ('POINTS','LINE',....) |
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55 | % .num_DX,num_DY,DZ; meshes for regular grids |
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56 | % .Coord: object position coordinates |
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57 | % .ParentButton: handle of the uicontrol object calling the interface |
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58 | % PlotHandles: set of handles of the elements contolling the plotting of the projected field: |
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59 | % if =[] or absent, no plot (mask mode in uvmat) |
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60 | % parameters on the uvmat interface (obtained by 'get_plot_handle.m') |
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61 | function set_grid_OpeningFcn(hObject, eventdata, handles,InputFile,InputField) |
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62 | |
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63 | % Choose default command line output for set_grid |
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64 | handles.output = hObject; |
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65 | |
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66 | % Update handles structure |
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67 | guidata(hObject, handles); |
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68 | |
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69 | %default |
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70 | set(hObject,'DeleteFcn',@closefcn) |
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71 | set(hObject,'WindowButtonDownFcn',{'mouse_down'})%set mouse click action function |
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72 | set(handles.CoordType,'ListboxTop',1) |
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73 | set(handles.CoordType,'Value',1); |
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74 | set(handles.CoordType,'String',{'phys';'px'}); |
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75 | if exist('InputFile','var') |
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76 | set(handles.ImageA,'String',InputFile) |
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77 | end |
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78 | |
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79 | %% use InputField input from uvmat |
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80 | check_pixel=0; |
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81 | if exist('InputField','var') |
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82 | if strcmp(InputField.CoordUnit,'pixel') |
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83 | set(handles.CoordType,'Value',2) |
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84 | set(handles.TxtWarning,'Visible','on') |
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85 | Mesh=20;%default mesh in pixel |
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86 | check_pixel=1; |
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87 | else |
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88 | set(handles.CoordType,'Value',1) |
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89 | InputField.CoordMesh=20*InputField.CoordMesh; % about 20 pixels |
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90 | % adjust the mesh to a value 1, 2 , 5 *10^n |
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91 | ord=10^(floor(log10(InputField.CoordMesh)));%order of magnitude |
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92 | if InputField.CoordMesh/ord>=5 |
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93 | Mesh=5*ord; |
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94 | elseif InputField.CoordMesh/ord>=2 |
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95 | Mesh=2*ord; |
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96 | else |
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97 | Mesh=ord; |
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98 | end |
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99 | end |
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100 | Input.DX=Mesh; |
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101 | Input.DY=Mesh; |
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102 | Input.XMin=(Mesh/2)*ceil(InputField.XMin/(Mesh/2))-0.5*check_pixel; |
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103 | Input.XMax=Input.XMin+Mesh*floor((InputField.XMax-Input.XMin)/Mesh)-0.5*check_pixel; |
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104 | Input.YMin=(Mesh/2)*ceil(InputField.YMin/(Mesh/2))-0.5*check_pixel; |
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105 | Input.YMax=Input.YMin+Mesh*floor((InputField.YMax-Input.YMin)/Mesh)-0.5*check_pixel; |
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106 | errormsg=fill_GUI(Input,handles.set_grid); |
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107 | end |
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108 | |
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109 | % --- Outputs from this function are returned to the command line. |
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110 | function varargout = set_grid_OutputFcn(hObject, eventdata, handles) |
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111 | % Get default command line output from handles structure |
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112 | varargout{1} = handles.output; |
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113 | varargout{2}=handles; |
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114 | |
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115 | %---------------------------------------------------- |
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116 | % executed when closing: set the parent interface button to value 0 |
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117 | function closefcn(gcbo,eventdata) |
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118 | huvmat=findobj(allchild(0),'Name','uvmat');%find the current uvmat interface handle |
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119 | parent_button=findobj(huvmat,'Tag','grid'); |
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120 | if ~isempty(parent_button) |
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121 | set(parent_button,'Value',0)%put unactivated buttons to green |
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122 | tag=get(parent_button,'Tag'); |
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123 | if isequal(tag,'edit') |
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124 | set(parent_button,'BackgroundColor',[0.7 0.7 0.7]); |
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125 | else |
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126 | set(parent_button,'BackgroundColor',[0 1 0]); |
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127 | end |
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128 | end |
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129 | |
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130 | %----------------------------------------------------------------------- |
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131 | % --- Executes on button press in plot: PLOT the defined object and its projected field |
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132 | function plot_Callback(hObject, eventdata, handles) |
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133 | [grid_pix_A,grid_pix_B,grid_phys]=get_grid(read_GUI(handles.set_grid)); |
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134 | huvmat=findobj(allchild(0),'tag','uvmat'); |
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135 | hhuvmat=guidata(huvmat); |
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136 | axes(hhuvmat.PlotAxes); |
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137 | hold on |
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138 | UvData=get(huvmat,'UserData'); |
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139 | if isfield(UvData.Field, 'CoordUnit')&& strcmp(UvData.Field.CoordUnit,'pixel') |
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140 | plot(grid_pix_A(:,1),grid_pix_A(:,2),'.','Tag','proj_object') |
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141 | else |
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142 | plot(grid_phys(:,1),grid_phys(:,2),'.','Tag','proj_object') |
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143 | end |
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144 | |
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145 | %% display grid in second image defined |
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146 | if ~isempty(grid_pix_B) |
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147 | hviewfield=view_field(get(handles.imageB,'String')); |
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148 | hhviewfield=guidata(hviewfield); |
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149 | axes(hhviewfield.PlotAxes); |
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150 | hold on |
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151 | if isfield(UvData.Field, 'CoordUnit')&& strcmp(UvData.Field.CoordUnit,'pixel') |
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152 | plot(grid_pix_B(:,1),grid_pix_B(:,2),'.') |
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153 | else |
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154 | plot(grid_phys(:,1),grid_phys(:,2),'.') |
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155 | end |
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156 | end |
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157 | |
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158 | % --- Executes on button press in clear. |
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159 | function clear_Callback(hObject, eventdata, handles) |
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160 | huvmat=findobj(allchild(0),'tag','uvmat'); |
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161 | if ~isempty(huvmat) |
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162 | hhuvmat=guidata(huvmat); |
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163 | hpoints=findobj(hhuvmat.PlotAxes,'Tag','proj_object'); |
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164 | if ~isempty(hpoints) |
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165 | delete(hpoints) |
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166 | end |
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167 | end |
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168 | %------------------------------------------------------------------------ |
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169 | % --- Executes on button press in CoordType. |
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170 | function CoordType_Callback(hObject, eventdata, handles) |
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171 | %------------------------------------------------------------------------ |
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172 | set(handles.num_XMin,'String','') |
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173 | set(handles.num_XMax,'String','') |
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174 | set(handles.num_DX,'String','') |
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175 | set(handles.num_YMin,'String','') |
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176 | set(handles.num_YMax,'String','') |
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177 | set(handles.num_DY,'String','') |
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178 | set(handles.num_Z,'String','') |
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179 | if isequal(get(handles.CoordType,'Value'),2) |
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180 | set(handles.TxtWarning,'visible','on') |
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181 | else |
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182 | set(handles.TxtWarning,'visible','on') |
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183 | end |
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184 | |
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185 | % ------------------------------------------------------ |
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186 | function Save_Callback(hObject, eventdata, handles) |
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187 | % ------------------------------------------------------ |
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188 | [grid_pix_A,grid_pix_B]=get_grid(read_GUI(handles.set_grid)); |
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189 | |
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190 | |
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191 | %ECRIRE FICHIERS |
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192 | nbpointsA=size(grid_pix_A); |
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193 | XA=grid_pix_A(:,1);%index=position+0.5 rounded at the nearest integer value |
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194 | YA=grid_pix_A(:,2); |
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195 | unitcolumn=32*ones(size(XA)); |
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196 | Xchar=num2str(XA,'%1.1f');% write x coordinate in px, rounded at the first decimal |
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197 | blanc=char(unitcolumn); |
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198 | Ychar=num2str(YA,'%1.1f');% write y coordinate in px, rounded at the first decimal |
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199 | tete=['1 ' num2str(nbpointsA(1))]; |
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200 | txt=[Xchar blanc Ychar]; |
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201 | textgrid={tete;txt}; |
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202 | textout=char(textgrid); |
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203 | imageA=get(handles.ImageA,'String'); |
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204 | RootPath=fileparts_uvmat(imageA); |
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205 | Answer = msgbox_uvmat('INPUT_TXT','grid file name (*.grid)',fullfile(RootPath,'gridA.grid')); |
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206 | dlmwrite(Answer,textout,''); |
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207 | msgbox_uvmat('CONFIRMATION',[Answer ' written as ASCII text file']); |
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208 | if ~isempty(grid_pix_B) |
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209 | nbpointsB=size(grid_pix_B); |
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210 | XB=round(grid_pix_B(:,1)+0.5);%index=position+0.5 rounded at the nearest integer value |
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211 | YB=round(grid_pix_B(:,2)+0.5); |
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212 | unitcolumn=32*ones(size(XB)); |
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213 | Xchar=num2str(XB); |
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214 | blanc=char(unitcolumn); |
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215 | Ychar=num2str(YB); |
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216 | tete=['1 ' num2str(nbpointsB(1))]; |
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217 | txt=[Xchar blanc Ychar]; |
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218 | textgrid={tete;txt}; |
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219 | textout=char(textgrid); |
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220 | Answer = msgbox_uvmat('INPUT_TXT','grid file name (*.grid)',fullfile(RootPath,'gridB.grid')); |
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221 | dlmwrite(Answer,textout,''); |
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222 | msgbox_uvmat('CONFIRMATION',[Answer ' written as ASCII text file']); |
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223 | end |
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224 | |
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225 | |
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226 | %------------------------------------------------------------------------ |
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227 | function [grid_pix_A,grid_pix_B,grid_phys]=get_grid(GUI) |
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228 | %------------------------------------------------------------------------ |
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229 | grid_pix_B=[];%default |
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230 | array_x=GUI.XMin:GUI.DX:GUI.XMax;% array of x values |
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231 | array_y=GUI.YMin:GUI.DY:GUI.YMax;% array of y values |
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232 | [grid_x,grid_y]=meshgrid(array_x,array_y);% matrices of x and y values |
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233 | grid_x=reshape(grid_x,[],1); %matrix of x values reshaped in line |
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234 | grid_y=reshape(grid_y,[],1);%matrix of y values reshaped in line |
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235 | % grid_z=zeros(nx_patch*ny_patch,1);% plane coordinates (TODO: 3D grids) |
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236 | |
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237 | %% check the input image A |
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238 | if ~exist(GUI.ImageA,'file') |
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239 | msgbox_uvmat('ERROR',['input image file' imageA 'does not exist']) |
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240 | return |
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241 | end |
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242 | [FileInfo,VideoObject]=get_file_info(GUI.ImageA); |
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243 | if ~strcmp(FileInfo.FieldType,'image');% =1 for images |
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244 | msgbox_uvmat('ERROR',['error: ' GUI.ImageA ' is not an image type recognized by Matlab ']) |
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245 | return |
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246 | end |
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247 | |
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248 | [RootPath,SubDir,RootFile,tild,tild,tild,tild,FileExt]=fileparts_uvmat(GUI.ImageA); |
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249 | |
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250 | %% transform to pixels if the grid is defined in phys coordinates |
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251 | grid_x_imaA=grid_x;%default grid in image A coordinates |
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252 | grid_y_imaA=grid_y; |
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253 | % MenuCoord=get(handles.CoordType,'String');% type of coordinates for grid definition, phys or pixel |
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254 | if strcmp(GUI.CoordType,'phys') |
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255 | fileAxml=fullfile(RootPath,[SubDir '.xml']);% new convention for xml name |
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256 | if ~exist(fileAxml,'file') |
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257 | fileAxml=[fullfile(RootPath,RootFile) '.xml'];% old convention for xml name |
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258 | end |
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259 | tsaiA=[];%default |
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260 | SliceA=[]; |
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261 | if exist(fileAxml,'file') |
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262 | [XmlDataA,errormsg]=imadoc2struct(fileAxml); |
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263 | if ~isempty(errormsg) |
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264 | msgbox_uvmat('ERROR',['error in ' fileAxml ': ' errormsg]) |
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265 | return |
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266 | end |
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267 | if isfield(XmlDataA,'GeometryCalib') |
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268 | tsaiA=XmlDataA.GeometryCalib; |
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269 | SliceA=tsaiA;%default |
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270 | end |
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271 | if isfield(XmlDataA,'Slice') |
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272 | SliceA=XmlDataA.Slice; |
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273 | end |
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274 | end |
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275 | if isempty(tsaiA) |
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276 | msgbox_uvmat('WARNING','no geometric calibration available for image A, phys =pixel') |
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277 | else |
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278 | [grid_x_imaA,grid_y_imaA]=px_XYZ(tsaiA,SliceA,grid_x,grid_y,GUI.Z); |
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279 | end |
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280 | end |
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281 | |
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282 | %% detect the grid points which are inside image A |
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283 | A=read_image(GUI.ImageA,FileInfo.FileType,VideoObject,1); |
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284 | npxA=size(A,2); |
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285 | npyA=size(A,1); |
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286 | flag=grid_x_imaA>=1 & grid_x_imaA<=npxA & grid_y_imaA>=1 & grid_y_imaA<=npyA;% ='true' inside the image |
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287 | |
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288 | %% detect the grid points which are inside image B if relevant (use for stereo PIV) |
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289 | if isfield(GUI,'ImageB') |
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290 | if ~exist(imageB,'file') |
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291 | msgbox_uvmat('ERROR',['input image file' GUI.ImageB 'does not exist']) |
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292 | return |
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293 | end |
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294 | [RootPathB,SubDirB,RootFileB,tild,tild,tild,tild,FileExt]=fileparts_uvmat(GUI.ImageB); |
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295 | fileBxml=fullfile(RootPathB,[SubDirB '.xml']);% new convention for xml name |
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296 | if ~exist(fileBxml,'file') |
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297 | fileBxml=[fullfile(RootPathB,RootFileB) '.xml'];% old convention for xml name |
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298 | end |
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299 | tsaiB=[];%default |
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300 | SliceB=[]; |
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301 | if exist(fileBxml,'file') |
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302 | [XmlDataB,errormsg]=imadoc2struct(fileBxml); |
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303 | if ~isempty(errormsg) |
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304 | msgbox_uvmat('ERROR',['error in ' fileAxml ': ' errormsg]) |
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305 | return |
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306 | end |
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307 | if isfield(XmlDataB,'GeometryCalib') |
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308 | tsaiB=XmlDataB.GeometryCalib; |
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309 | SliceB=tsaiB;%default |
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310 | end |
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311 | if isfield(XmlDataB,'Slice') |
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312 | SliceB=XmlDataB.Slice; |
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313 | end |
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314 | end |
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315 | if isempty(tsaiB) |
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316 | msgbox_uvmat('WARNING','no geometric calibration available for image B, phys =pixel') |
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317 | grid_x_imaB=grid_x; |
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318 | grid_y_imaB=grid_y; |
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319 | else |
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320 | [grid_x_imaB,grid_y_imaB]=px_XYZ(tsaiB,SliceB,grid_x,grid_y,GUI.Z); |
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321 | end |
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322 | B=imread(GUI.ImageB); |
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323 | npxB=size(B,2); |
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324 | npyB=size(B,1); |
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325 | flagB=grid_x_imaB>=1 & grid_x_imaB<=npxB & grid_y_imaB>=1 & grid_y_imaB<=npyB; |
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326 | flag=flagA & flagB; |
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327 | grid_pix_B(:,1)=round(grid_x_imaB(flag)); |
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328 | grid_pix_B(:,2)=round(grid_y_imaB(flag)); |
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329 | end |
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330 | |
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331 | grid_x_imaA=grid_x_imaA(flag); |
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332 | grid_y_imaA=grid_y_imaA(flag); |
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333 | grid_pix_A=[grid_x_imaA grid_y_imaA]; |
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334 | grid_x=grid_x(flag); |
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335 | grid_y=grid_y(flag); |
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336 | grid_phys=[grid_x grid_y]; |
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337 | |
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338 | |
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339 | function GetImageB_Callback(hObject, eventdata, handles) |
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340 | if isequal(get(handles.GetImageB,'Value'),1) |
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341 | set(handles.ImageB,'Visible','on') |
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342 | [FileName, PathName, filterindex] = uigetfile( ... |
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343 | {'*.*', 'All Files (*.*)'}, ... |
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344 | 'Pick the second image file',fileparts(fileparts(get(handles.ImageA,'String')))); |
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345 | ImageB=fullfile(PathName,FileName); |
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346 | [FileInfo,tild,VideoObject]=get_file_info(ImageB); |
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347 | if ~strcmp(FileInfo.FieldType,'image');% =1 for images |
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348 | msgbox_uvmat('ERROR',['error: ' imageB ' is not an image type recognised by Matlab ']) |
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349 | return |
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350 | end |
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351 | else |
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352 | set(handles.ImageB,'Visible','off') |
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353 | end |
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354 | |
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355 | |
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356 | %------------------------------------------------------------------------ |
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357 | % --- Executes on button press in HELP. |
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358 | function HELP_Callback(hObject, eventdata, handles) |
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359 | %------------------------------------------------------------------------ |
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360 | path_to_uvmat=which ('uvmat');% check the path of uvmat |
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361 | pathelp=fileparts(path_to_uvmat); |
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362 | helpfile=fullfile(pathelp,'uvmat_doc','uvmat_doc.html'); |
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363 | if isempty(dir(helpfile)), errordlg('Please put the help file uvmat_doc.html in the directory UVMAT/UVMAT_DOC') |
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364 | else |
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365 | web([helpfile '#set_grid']) |
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366 | end |
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367 | |
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368 | |
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369 | |
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370 | function ImageA_Callback(hObject, eventdata, handles) |
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371 | % hObject handle to ImageA (see GCBO) |
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372 | % eventdata reserved - to be defined in a future version of MATLAB |
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373 | % handles structure with handles and user data (see GUIDATA) |
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374 | |
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375 | % Hints: get(hObject,'String') returns contents of ImageA as text |
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376 | % str2double(get(hObject,'String')) returns contents of ImageA as a double |
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377 | |
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378 | |
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379 | |
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380 | |
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