# Tag Info

12

I put together something reasonably generic, see below. I will generalize this a bit more and post it to the File Exchange, I think it's a fairly nice tool to have around :) I intend to automatically adjust the table size to fit its contents make it suited for arbitrary legend placement couple the table and legend together when moving them with the ...

7

Try using axes, for example: x = linspace(0,1); figure(1) % plot on large axes semilogy(x,1./x) % create smaller axes in top right, and plot on it axes('Position',[.55 .55 .33 .33]) box on loglog(x,exp(x))

7

You can use handles for the plots, and then specify the plots for the legend by their handles: x=1:0.5:15; y(1,:)=x.^1; y(2,:)=x.^1.2; ... ... ... y(10,:)=x.^2.2; for k=1:10 h(k)=plot(x,y(k,:)); hold on end legend([h(1) h(5) h(10)],'curve 1','curve 5','curve 10'); hold off

6

When you create a GUI using GUIDE, it should create both a .fig file and a .m file. To run it, you should run the .m file, rather than double-clicking the .fig file. The .fig file just contains static information about the layout of the GUI - there is nothing executable in it that would initialise handles and so on.

6

In matlab you concatenate strings using strcat and not using + operator! Try movie2avi( H, strcat('movie_', number, '.avi') ); Alternatively, you can use [] to concat the literals into a string movie2avi( H, ['movie_', number, '.avi'] );

6

To get a rose with leaves that bend up, you can play around with the z-coordinate. For instance, you can try something like this: z = 0.5 * (x.^2 + y.^2); This results in And since roses are red... t = linspace(0,2*pi,201); r = sqrt(abs(2*sin(5*t))); [x y]=pol2cart(t,r); z= 0.5*(x.^2+y.^2); fill3(-x+30,-y+30,z, 'r') alpha(0.5) grid on;

6

I feel your pain. This issue is also why the getframe function for generating movies is so inefficient. The only way I know around it is to write a simpler function that calls the low-level hardcopy function. Here's an example of this for image-based graphics along with some caveats. The hardcopy function supports both the 'dpsc2' and 'append' options that ...

6

Semidocumented Solution Adding lines to a legend in a loop can be accomplished with "dynamic legends", as described on undocumentedmatlab.com. The idea is to replace the legend command with: legend('-DynamicLegend'); Then update the plot command with a DisplayName parameter: plot(d,F,'Linewidth',1.0,'DisplayName',sprintf('pitch,yaw: %d,%d',pitch,yaw)); ...

5

It sounds like you want to join up your data, so you need to extract the x and y data from each of your plots. If you have a line plot, you can load the first .fig file e.g. and then type a = gca handles = findobj(a) isLine = strcmp(get(handles, 'Type'), 'line') XData1 = get(handles(isLine), 'XData') YData1 = get(handles(isLine), 'YData') That will ...

5

Check the documentation for hist: [nelements,xcenters] = hist(___) returns an additional row vector, xcenters, indicating the location of each bin center on the x-axis. To plot the histogram, you can use bar(xcenters,nelements). So the answer is simply to plot the data with bar(bin,counts).

5

Well perhaps a bit of an overkill: You could use uitable, like this %define your data: dat = {' green', 1, 2;... ' blue', 2,3.1;... ' yellow', 3, 4.8;} columnname = {' ', 'Param1', 'Param2'}; columnformat = {'char', 'numeric', 'numeric'}; t = uitable('Units','normalized','Position',... [0.05 0.05 0.755 0.87], ...

5

Probably you mistyped tex string: figure hold on line1H=plot(1:10,1:10); line2H=plot(1:10,2*(1:10),'r'); leg{1} = 'BlackText {\color{blue}line1} BlackAgain'; leg{2} = 'BlackText {\color{red}line2} BlackAgain'; legend([line1H,line2H],leg{:}) Generates:

5

I'd start with the MATLAB Support Package for Arduino (aka ArduinoIO Package) from the file exchange. And there are several tutorials out there, here is one, and another one.

5

The command set(p) does not set any property of p. The correct syntax for actually setting a property of p is set( p, 'PropertyName', Value ) When typing only set(p) you get all property-value information typed out (which you don't want)...

4

The code to create a slider is reasonable minimal: uicontrol('Style', 'slider', 'Callback', @sliderCallback); function sliderCallback(hObject, evt) fprintf('Slider value is: %d\n', get(hObject, 'Value') ); end You will want to look at properties such as Position, to set the position on the figure, and Max and Min to set the possible range of values. ...

4

The Matlab figure export dialog and the saveas() function lack a lot of desirable functionality. Especially, savas() cannot create a custom resoultion image which is why your results look poor. For creation of bitmap images I highly recommend using the third-party function export_fig. By adding the following code to your function (including the maximizing ...

4

use getframe to capture the content of the current figure handle fh = figure % ... for ii = 1:8 figure( fh ); % focus on figure plot( r(ii,:) ); frm = getframe( fh ); % save as png image imwrite( frm.cdata, sprintf( 'current_frame_%02d.png', ii ) ); end PS It is best not to use i as a variable in Matlab

4

Using 'Position' of axes property % generate "data" m = rand( 40,10 ); [n x] = hist( m, 50 ); % the actual plotting figure; ma = axes('Position',[.1 .1 .8 .8] ); % "parent" axes N = size(n,2); % number of vertical bars for ii=1:N, % create an axes inside the parent axes for the ii-the barh sa = axes('Position', [0.1+(ii-1)*.8/N, 0.1, .8/N, .8]); ...

4

imagesc takes a 'parent' parameter. This is indirectly documented via the image function. For example: imdata = imread('ngc6543a.jpg'); f = figure; a1 = subplot(211); a2 = subplot(212); image(imdata,'parent',a1); imagesc(imdata,'parent',a2);

4

The line function, like patch is a low level function. The plot command are built on top of these. However you can do this: f1 = figure(1); a1 = gca; line([0 1],[0 1],'Parent',a1); % Parent has to be an axis handle You can find more line options here: line properties or type doc Line_Props in the Matlab command window.

4

The function fill appears to leave space for corner markers if they are not explicitly defined. Hence, calling fill with the marker property will solve your problem. However, since markers and linewidths seem to work on different scales, you will have to play around with the marker size to get smooth edges. Example: ...

4

Ah here we go: implay(Diff); set(findall(0,'tag','spcui_scope_framework'),'position',[150 150 700 550]); Works in 2012b. (Note: if you have more than one implay window open, this will set them all to the same size) So you can learn how to find this kind of stuff for yourself, what I did was start with a workspace with no other open windows. I then used ...

4

The documentation for suptitle clearly states: Use this function after all subplot commands. So your solution is: figure subplot(7,2,1:4); % there's intentionnal gap between 2 plots % therefore subplots 5 and 6 aren't used plot(X); subplot(7,2,7:14); plot(Y); suptitle({'Multi-','line','Title'});

4

The reason that legend is showing the last two plots as red lines is that your second loglog function is returning multiple handles. It looks like one line, but it's really multiple lines superimposed. Change loglog(xax, R1, 'r-'); to h=loglog(xax, R1, 'r-') and you'll see. The legend function applies the strings you give to it to each handle in the current ...

4

Assuming a cylinder aligned with the z-axis, radii R linearly spaced along the unit height above the XY-plane (same assumptions as built-in cylinder): function [x,y,z] = solidCylinder(varargin) %// Basic checks assert(nargin >= 1, 'Not enough input arguments.'); assert(nargin <= 3, 'Too many input arguments.'); assert(nargout <= 3, ...

4

Here is a very simple, not so efficient but very easy to read, way to do this: % create fake data x=linspace(-10,10,100); y=sin(x); c=randi(numel(x),1,numel(x)); cmap=colormap(jet(numel(x))); % plot the lines plot(x,y,'--'); hold on % plot the squares, one at a time according to color vector c % I added some randome noise to y to get the image nicer... ...

4

Try this >> leg = sprintf('This is a really long line\nso I broke it in two') >> plot(1:10, 1:10) >> legend(leg) Which results in This won't work if there are other characters in your legend that need to be escaped (e.g. if there is a lot of LaTeX). In that case you can insert a newline character manually - >> newline = ...

3

You can use text to label the columns and rows. subplot(2,2,1) title('a') h1 = text(-0.25, 0.5,'row 1'); set(h1, 'rotation', 90) text(0.35,1.2,'column 1'); subplot(2,2,2) title('b') text(0.35,1.2,'column 2'); subplot(2,2,3) title('c') h = text(-0.25, 0.5, 'row 2'); set(h, 'rotation', 90) subplot(2,2,4) title('d') The position of text will have to be ...

3

Use ANNOTATION of textarrow type. Here is an example from the documentation: plot(1:10); a = annotation('textarrow', [.3 .5], [.6 .5], 'String' , 'Straight Line'); EDIT: Notice that annotation requires coordinate in normalized figure units (nfu) that are different from axes units. To convert from axes units to nfu I like to use DS2NFU FileExchange ...

3

The created window is a pure Java figure (not MATLAB Handle Graphics). Try this to capture it: %# neural net, and view it net = feedforwardnet(5); jframe = view(net); %# create it in a MATLAB figure hFig = figure('Menubar','none', 'Position',[100 100 565 166]); jpanel = get(jframe,'ContentPane'); [~,h] = javacomponent(jpanel); set(h, 'units','normalized', ...

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