Editor's Note: This file was selected as MATLAB Central Pick of the Week
Old version of Chebfun. To download latest version see www.chebfun.org, www.github.com/chebfun, or the Matlab File Exchange www.mathworks.com/matlabcentral/fileexchange.
Chebfun Team (2020). Chebfun V4  old version; please download current version instead (https://www.mathworks.com/matlabcentral/fileexchange/23972chebfunv4oldversionpleasedownloadcurrentversioninstead), MATLAB Central File Exchange. Retrieved .
4.2.0.0  Updated October 29, 2015. 

1.20.0.0  Announce V5 release. 

1.19.0.0  Removing V5 notification. Didn't expect the change to happen instantly.. 

1.18.0.0  Rename this as V4. V5 will be released on FileExchange (via GitHub) very soon. 

1.17.0.0  Updated to v4.2.2194. Release notes at www.chebfun.org/notes/ 

1.16.0.0  The .zip file didn't seem to have been updated in the previous resubmission. 

1.15.0.0  Updated to most recent software release (V4.1). 

1.10.0.0  Updated information on new release. 

1.9.0.0  Added version number to title and some minor changes to the description. 

1.8.0.0  Updated license information 

1.7.0.0  Summary corrected. 

1.5.0.0  New chebfun release v. 2.0501. Release notes can be found at http://web.comlab.ox.ac.uk/projects/chebfun/notes_V2_0501.html 

1.4.0.0  Changed the screenshot of the logo. 
Inspired: Gauss quadrature nodes and weights., Chebpack, Dynamical System Viewer, Chebfun  current version
Create scripts with code, output, and formatted text in a single executable document.
MD SHAHNAWAZ HUSSAIN (view profile)
Stuart McGarrity (view profile)
The .m file link in the example does not work: "(Chebfun example geom/Ellipse.m)"
MD. SHAHNEWAZ MASUD (view profile)
A. Gowrisankar (view profile)
Hi,
I have use R2013a version. I'm try to find the fractional integral of the given function, but I have the struggle.
code:
x = chebfun('x',[0 1]); u = [];
for k = 1:10;
u = [ u cumsum(x.^k,0.5)];
plot(u,LW,lw), drawnow, hold on
end
title('Halfintegrals of x^k for k = 1, ...,
Error:
Error using chebfun/cumsum (line 41)
Fractional antiderivatives not yet implemented.10',FS,fs)
xlabel('x',FS,fs);
I would be happy if you can address this issue with a solution. Thanks in advance.
Nick Hale (view profile)
Hi Mehedi
I suggest you download the new version of Chebfun from here:
http://www.mathworks.com/matlabcentral/fileexchange/47023chebfun
Regards
Nick
Mehedi (view profile)
Hello,
Great stuff! However, on 'guide  7' this code segment does not work and gives the following error 
code :
L = chebop(@(x,u) diff(u,2),[0,pi]);
L.bc = 0;
[V,D] = eigs(L);
diag(D)
clf, plot(V(:,1:4))
error:
Error using horzcat
Dimensions of matrices being concatenated are not consistent.
Error in chebop/linearise (line 133)
dom = unique([dom domL domR domO]);
Error in chebop/linop (line 18)
[L bc isLin] = linearise(N,[],linCheck);
Error in chebop/eigs (line 44)
L = linop(N);
I would be happy if you can address this issue with a solution. Thanks in advance.
BR
Mehedi
Nick Hale (view profile)
Hi Jeff
Sorry for the delay in replying. In your first problem, you haven't quite the boundary condition syntax correct. The following should work:
L = chebop(@(x,u) diff(u,4), [0,1]);
B = chebop(@(x,u) sin(x) + 0*u, [0,1]);
L.lbc = @(u) [diff(u,2), diff(u,3)];
L.rbc = @(u) [diff(u,2), diff(u,3)];
The y''''(x)=lambda*f(x)*y(x) problem should be possible also. Try something like the following, where sin is replaced by the mfile you wish to use to construct f:
f = chebfun(@sin, [0, 1]);
[V, D] = eigs(L, diag(f), 4);
Regards
Nick
P.S. Emailing discuss@chebfun.org or help@chebfun.org should result in speedier replies! :)
Peter Green (view profile)
Another question: I want to solve the eigenvalues and eigenfunctions of the following equation
y''''(x)=lambda*f(x)*y(x)
Here f(x) is a function defined in a seperate .m file. Is it possible to use chebfun to solve the eigenvalues and eigenfunctions?
Thanks.
Jeff
Peter Green (view profile)
An excellent software!!! Definitely 5 star.
A quick question. I am using the chebfun function to find the eigenvalues and eigenfunctions of the following boundary value problem
D^4 y=lambda*y, y''(0)=y'''(0)=y''(1)=y'''(1)=0,
where D is the differential operator, lambda is the eigenvalue and the solution y is the corresponding eigenfunction.
I used the following code in chebfun:
L = chebop(@(x,u) diff(u,4), [0,1]);
L.lbc = @(u) diff(u,2);
L.lbc =@(u) diff(u,3);
L.rbc = @(u) diff(u,2);
L.rbc =@(u) diff(u,3);
[V,D] = eigs(L,trunc);
disp(diag(D)), toc
HOWEVER, the below error was reported
Error using eig
Matrix must be square.
Error in linop/eigs>bc_eig (line 288)
[V,D] = eig(full(Amat),full(Pmat));
Error in linop/eigs (line 94)
[V1,D1] = bc_eig(A,B,33,33,0,map,breaks);
Error in chebop/eigs (line 57)
[varargout{1:nargout}] = eigs(L,varargin{:});
Looks like I am on the right track but some nonsquare matrix caused that error. Sincerely appreciate your comments and suggestions.
Thanks.
Jeff
Raghuram (view profile)
Shashank (view profile)
Perfect toolbox for somebody doing numerical analysis for the first time!
Mark Shore (view profile)
There is just so much to learn from this topnotch collection of powerful routines.
Mark Shore (view profile)
There is just so much to learn from this topnotch collection of powerful routines.
Mark Shore (view profile)
Chebfun Team (view profile)
Hi Jiro,
Thanks! We're currently in the process of moving to the new OOP system in our development release, which you can find on our website: http://www.maths.ox.ac.uk/chebfun/
jiro (view profile)
I really like the comprehensive User's Guide that you include with this package.
Do you have a plan to implement this using the new MATLAB Class system?
Erdal Bizkevelci (view profile)
Siyi Deng (view profile)
this toolbox is awesome.
Erdal Bizkevelci (view profile)
John D'Errico (view profile)
Thanks Tobin  that was what i was looking for. Those files are very readable, clearly explaining what a chebfun is and how to use them. I'll now call this a complete package.
I've had the time to do a little more perusal of these tools now too. They work on my Mac, which is sometimes an issue.
Toby Driscoll (view profile)
The guide directory included in the package has 8 published scripts that contain dozens of examples in tutorial style. The resulting HTML files are also installed in the Help Browser under the "Chebfun Toolbox" heading.
John D'Errico (view profile)
I've not tried this out, nor tested it yet. That will take some time. But what I've seen suggests this will be interesting and potentially useful. A lot of effort has been invested here in these tools.
The only thing I'd have liked to see is a published set of demos, with more explanation around how to use it and what the demos are showing. There is a directory (chebtests) of some tests of the tools, but they have virtually no comments in them. Derek has a good suggestion, to read the paper by Trefethen. Here are a few links of interest:
http://www.comlab.ox.ac.uk/nick.trefethen/trefethen_functions.pdf
http://www.comlab.ox.ac.uk/nick.trefethen/ppt_revised.pdf
http://www.comlab.ox.ac.uk/chebfun/publications/driscoll_born_tref.pdf
The papers shown are quite readable. I'd highly recommend them.
My only source of dissatisfaction here is with a lack of examples. These files need extensive demos and DOCUMENTED examples that explain how to use them for the person who might be interested in using them. The fact is, it does not look like that would be difficult to do, and I'd welcome that addition.
My gut says these tools are worth a 5 star rating, IF you know how to use them and what they do. Without a good set of clearly documented examples, my gut wants to rate them as only 4 stars.
Derek O'Connor (view profile)
An excellent system. Passed all tests with Matlab R2008a 64 bit with Windows Vista 64.
Read Trefethen's paper "Computing Numerically with Functions Instead of Numbers" which is a nice short introduction to Chebfun.
http://www.comlab.ox.ac.uk/nick.trefethen/home.html
Derek O'Connor