From f618466c25d43f3bae9e40920273bf77de1e1149 Mon Sep 17 00:00:00 2001 From: leochanj105 Date: Mon, 19 Oct 2020 23:09:30 -0400 Subject: initial sd-vbs initial sd-vbs add sd-vbs sd-vbs --- .../toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m | 216 +++++++++++++++++++++ 1 file changed, 216 insertions(+) create mode 100755 SD-VBS/common/toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m (limited to 'SD-VBS/common/toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m') diff --git a/SD-VBS/common/toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m b/SD-VBS/common/toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m new file mode 100755 index 0000000..56fe496 --- /dev/null +++ b/SD-VBS/common/toolbox/toolbox_basic/TOOLBOX_calib/ginput3.m @@ -0,0 +1,216 @@ +function [out1,out2,out3] = ginput2(arg1) +%GINPUT Graphical input from mouse. +% [X,Y] = GINPUT(N) gets N points from the current axes and returns +% the X- and Y-coordinates in length N vectors X and Y. The cursor +% can be positioned using a mouse (or by using the Arrow Keys on some +% systems). Data points are entered by pressing a mouse button +% or any key on the keyboard except carriage return, which terminates +% the input before N points are entered. +% +% [X,Y] = GINPUT gathers an unlimited number of points until the +% return key is pressed. +% +% [X,Y,BUTTON] = GINPUT(N) returns a third result, BUTTON, that +% contains a vector of integers specifying which mouse button was +% used (1,2,3 from left) or ASCII numbers if a key on the keyboard +% was used. + +% Copyright (c) 1984-96 by The MathWorks, Inc. +% $Revision: 5.18 $ $Date: 1996/11/10 17:48:08 $ + +% Fixed version by Jean-Yves Bouguet to have a cross instead of 2 lines +% More visible for images + +P = NaN*ones(16,16); +P(1:15,1:15) = 2*ones(15,15); +P(2:14,2:14) = ones(13,13); +P(3:13,3:13) = NaN*ones(11,11); +P(6:10,6:10) = 2*ones(5,5); +P(7:9,7:9) = 1*ones(3,3); + +out1 = []; out2 = []; out3 = []; y = []; +c = computer; +if ~strcmp(c(1:2),'PC') & ~strcmp(c(1:2),'MA') + tp = get(0,'TerminalProtocol'); +else + tp = 'micro'; +end + +if ~strcmp(tp,'none') & ~strcmp(tp,'x') & ~strcmp(tp,'micro'), + if nargout == 1, + if nargin == 1, + eval('out1 = trmginput(arg1);'); + else + eval('out1 = trmginput;'); + end + elseif nargout == 2 | nargout == 0, + if nargin == 1, + eval('[out1,out2] = trmginput(arg1);'); + else + eval('[out1,out2] = trmginput;'); + end + if nargout == 0 + out1 = [ out1 out2 ]; + end + elseif nargout == 3, + if nargin == 1, + eval('[out1,out2,out3] = trmginput(arg1);'); + else + eval('[out1,out2,out3] = trmginput;'); + end + end +else + + fig = gcf; + figure(gcf); + + if nargin == 0 + how_many = -1; + b = []; + else + how_many = arg1; + b = []; + if isstr(how_many) ... + | size(how_many,1) ~= 1 | size(how_many,2) ~= 1 ... + | ~(fix(how_many) == how_many) ... + | how_many < 0 + error('Requires a positive integer.') + end + if how_many == 0 + ptr_fig = 0; + while(ptr_fig ~= fig) + ptr_fig = get(0,'PointerWindow'); + end + scrn_pt = get(0,'PointerLocation'); + loc = get(fig,'Position'); + pt = [scrn_pt(1) - loc(1), scrn_pt(2) - loc(2)]; + out1 = pt(1); y = pt(2); + elseif how_many < 0 + error('Argument must be a positive integer.') + end + end + +pointer = get(gcf,'pointer'); + +set(gcf,'Pointer','custom','PointerShapeCData',P,'PointerShapeHotSpot',[8,8]); +%set(gcf,'pointer','crosshair'); + fig_units = get(fig,'units'); + char = 0; + + while how_many ~= 0 + % Use no-side effect WAITFORBUTTONPRESS + waserr = 0; + eval('keydown = wfbp;', 'waserr = 1;'); + if(waserr == 1) + if(ishandle(fig)) + set(fig,'pointer',pointer,'units',fig_units); + error('Interrupted'); + else + error('Interrupted by figure deletion'); + end + end + + ptr_fig = get(0,'CurrentFigure'); + if(ptr_fig == fig) + if keydown + char = get(fig, 'CurrentCharacter'); + button = abs(get(fig, 'CurrentCharacter')); + scrn_pt = get(0, 'PointerLocation'); + set(fig,'units','pixels') + loc = get(fig, 'Position'); + pt = [scrn_pt(1) - loc(1), scrn_pt(2) - loc(2)]; + set(fig,'CurrentPoint',pt); + else + button = get(fig, 'SelectionType'); + if strcmp(button,'open') + button = b(length(b)); + elseif strcmp(button,'normal') + button = 1; + elseif strcmp(button,'extend') + button = 2; + elseif strcmp(button,'alt') + button = 3; + else + error('Invalid mouse selection.') + end + end + pt = get(gca, 'CurrentPoint'); + + how_many = how_many - 1; + + if(char == 13) % & how_many ~= 0) + % if the return key was pressed, char will == 13, + % and that's our signal to break out of here whether + % or not we have collected all the requested data + % points. + % If this was an early breakout, don't include + % the key info in the return arrays. + % We will no longer count it if it's the last input. + break; + end + + out1 = [out1;pt(1,1)]; + y = [y;pt(1,2)]; + b = [b;button]; + end + end + + set(fig,'pointer',pointer,'units',fig_units); + + if nargout > 1 + out2 = y; + if nargout > 2 + out3 = b; + end + else + out1 = [out1 y]; + end + +end + +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% +function key = wfbp +%WFBP Replacement for WAITFORBUTTONPRESS that has no side effects. + +% Remove figure button functions +fprops = {'windowbuttonupfcn','buttondownfcn', ... + 'windowbuttondownfcn','windowbuttonmotionfcn'}; +fig = gcf; +fvals = get(fig,fprops); +set(fig,fprops,{'','','',''}) + +% Remove all other buttondown functions +ax = findobj(fig,'type','axes'); +if isempty(ax) + ch = {}; +else + ch = get(ax,{'Children'}); +end +for i=1:length(ch), + ch{i} = ch{i}(:)'; +end +h = [ax(:)',ch{:}]; +vals = get(h,{'buttondownfcn'}); +mt = repmat({''},size(vals)); +set(h,{'buttondownfcn'},mt); + +% Now wait for that buttonpress, and check for error conditions +waserr = 0; +eval(['if nargout==0,', ... + ' waitforbuttonpress,', ... + 'else,', ... + ' keydown = waitforbuttonpress;',... + 'end' ], 'waserr = 1;'); + +% Put everything back +if(ishandle(fig)) + set(fig,fprops,fvals) + set(h,{'buttondownfcn'},vals) +end + +if(waserr == 1) + error('Interrupted'); +end + +if nargout>0, key = keydown; end +%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -- cgit v1.2.2