## Hot answers tagged matlab

31

This is very similar to Ben Bolker's answer, but I'm demonstrating how one might add a bit of an aura to the crystal ball by using some mystical coloring:
library(rgl)
lapply(seq(0.01, 1, by=0.01), function(x) rgl.spheres(0,0,0, rad=1.1*x, alpha=.01,
col=colorRampPalette(c("orange","blue"))(100)[100*x]))
rgl.spheres(0,0,0, radius=1.11, col="red", ...

28

I have been using Matlab and C++ for about 10 years. For every numerical algorithms implemented for my research, I always start from prototyping with Matlab and then translate the project to C++ to gain a 10x to 100x (I am not kidding) performance improvement. Of course, I am comparing optimized C++ code to the fully vectorized Matlab code. On average, the ...

25

As the question is
I wonder if there is any way to program with R, matlab, or any other language.
and TeX is Turing complete and can be considered a programming language, I took some time and created an example in LaTeX using TikZ. As the OP writes it is for a research paper, this comes with the advantage that it can directly be integrated into the ...

23

I think it would help if you first look at what a GMM model represents. I'll be using functions from the Statistics Toolbox, but you should be able to do the same using VLFeat.
Let's start with the case of a mixture of two 1-dimensional normal distributions. Each Gaussian is represented by a pair of mean and variance. The mixture assign a weight to each ...

21

There is a function to find the number of nonzero matrix elements nnz. You can use this function on a logical matrix, which will return the number of true.
In this case, we apply nnz on the matrix A==0, hence the elements of the logical matrix are true, if the original element was 0, false for any other element than 0.
A = [1, 3, 1;
0, 0, 2;
0, ...

20

There is a way using Java from Matlab, specifically the java.awt.Robot class. See here.
Apparently there are two types of programs, regarding the way they work when called from Matlab with system('...'):
For some programs, Matlab waits until the program has finished before running the next statement. This happens for example with WinRAR (at least in my ...

19

Write it as a one-liner:
figure('position', [0, 0, 200, 500]) % create new figure with specified size

19

In your comments, you mentioned you wanted to resize an image using bilinear interpolation. Bear in mind that the bilinear interpolation algorithm is size independent. You can very well use the same algorithm for enlarging an image as well as shrinking an image. The right scale factors to sample the pixel locations are dependent on the output dimensions ...

19

The NumPy function np.std takes an optional parameter ddof: "Delta Degrees of Freedom". By default, this is 0. Set it to 1 to get the MATLAB result:
>>> np.std([1,3,4,6], ddof=1)
2.0816659994661326
To add a little more context, in the calculation of the variance (of which the standard deviation is the square root) we typically divide by the ...

17

The standard deviation is the square root of the variance. The variance of a random variable X is defined as
An estimator for the variance would therefore be
where denotes the sample mean. For randomly selected , it can be shown that this estimator does not converge to the real variance, but to
If you randomly select samples and estimate the sample ...

16

Interesting question!
I would definitely say it's good practice to use .' when you just want to transpose, even if the numbers are real and thus ' would have the same effect. The mains reasons for this are:
Conceptual clarity: if you need to transpose, just transpose. Don't throw in an unnecessary conjugation. It's bad practice. You'll get used to writing ...

15

I'd recommend you have a look at a ray-tracing program, for instance povray. I don't know much of the language, but fiddling around with some examples I managed to produce this without too much effort.
background { color rgb <1,1,1,1> }
#include "colors.inc"
#include "glass.inc"
#declare R = 3;
#declare Rs = 0.05;
#declare Rd = R - Rs ;
camera ...

15

%matlab code
sort(randperm(N-(k-1),k))+[0:(k-1)]
There is a simple obersavation behind this solution, if you take any sorted solution to your problem and substract [0:(k-1)], you end up with a random choice of k numbers out of N-(k-1)

14

It's not just the usability. Though the documentation says:
The linspace function generates linearly spaced vectors. It is
similar to the colon operator :, but gives direct control over the
number of points.
it is the same, the main difference and advantage of linspace is that it generates a vector of integers with the desired length (or default ...

14

some basic matlab to know: the (:) operator will flatten any matrix into a column vector , ~ is the NOT operator flipping zeros to ones and non zero values to zero, then we just use sum:
sum(~A(:))
This should be also about 10 times faster than the length(find... scheme, in case efficiency is important.
Edit: in the case of NaN values you can resort to ...

13

If time is important (not programming techniques):
function f = fib(n)
if (n == 1)
f = 1;
elseif (n == 2)
f = 2;
else
fOld = 2;
fOlder = 1;
for i = 3 : n
f = fOld + fOlder;
fOlder = fOld;
fOld = f;
end
end
end
tic;fib(40);toc; ans = 165580141; Elapsed time is 0.000086 seconds.
You could even use uint64. n = 92 is the most ...

12

Matlab uses 64-bit floating point representation by default for numbers. Those have a base-10 16-digit precision (more or less) and your numbers seem to exceed that.
Use something like uint64 to store your numbers:
> test = [uint64(33777100285870080); uint64(33777100285870082)];
> disp(test(1));
33777100285870080
> disp(test(2));
...

12

Some alternatives:
Using repmat:
A = repmat(3, [5 7]); %// 5x7 matrix filled with the value 3
Using indexing:
A(1:m, 1:n) = x;
Following is a timing comparison between all proposed approaches. As you can see, @Dennis' solutions are the fastest (at least on my system).
Functions:
function y = f1(x,m,n) %// Dennis' "ones"
y = x*ones(m,n);
function y ...

12

Benchmarks
Tested functions:
MATLAB's built-in repelem function that was added in R2015a
gnovice's cumsum solution (rld_cumsum)
Divakar's cumsum+diff solution (rld_cumsum_diff)
knedlsepp's accumarray solution (knedlsepp5cumsumaccumarray) from this post
Naive loop-based implementation (naive_jit_test.m) to test the just-in-time compiler
Results of ...

12

Some Information
It is almost impossible to draw a graph with edge length proportional to edge weight, atleast its very unlikely that the weights allow a graph to be drawn this way, most will be impossible...
See:
P. Eades and N. C. Wormald. Fixed edge-length graph drawing is
NP-hard. Discrete Applied Mathematics, 28(2):111–134, 1990]
or to quote:
...

11

It is not necessary, a language without a unary plus does not allow to write +1. Obviously you could also write 1 but when importing data which always writes the + or - it's very nice to have.
Searching some source codes, I found a curious use of +
A=+A
which replaced the code:
if ~isnumeric(A)
A=double(A);
end
It casts chars and logicals to ...

11

The pythonic idiom is just to ignore the first return value by assigning it to _:
_, y = function()

11

Solution code
You can use cumsum & accumarray for an efficient solution -
%// Create ID/labels for use with accumarray later on
id = cumsum(cut)+1
%// Mask to get valid values from cut and vec corresponding to ones in cut
mask = cut==0
%// Finally get the output with accumarray using masked IDs and vec values
out = ...

11

The reason is that Matlab uses double floating-point arithmetic by default. A number as large as 688^79 can't be represented accurately as a double. (The largest integer than can be accurately represented as a double is of the order of 2^53).
To obtain the right result you can use symbolic variables, which ensures you don't lose accuracy:
>> x = ...

11

On my machine, sum(x-y) is slightly faster for small arrays, but sum(x)-sum(y) is quite a lot faster for larger arrays. To benchmark, I'm using MATLAB R2015a on a Windows 7 machine with 32GB memory.
n = ceil(logspace(0,4,25));
for i = 1:numel(n)
x = rand(n(i));
y = rand(n(i));
t1(i) = timeit(@()sum(x-y));
t2(i) = timeit(@()sum(x)-sum(y));
...

11

Try using a diag call in combination with ones. For your case, you have a 10 x 10 identity matrix and want to shift the diagonal to the right by 1.
>> n = 10;
>> shift = 1;
>> A = diag(ones(n-abs(shift),1),shift)
A =
0 1 0 0 0 0 0 0 0 0
0 0 1 0 0 0 0 0 0 0
...

11

First, using time is not a good way to test code like this. But let's ignore that.
When you have code that does a lot of looping and repeating very similar work each time through the loop, PyPy's JIT will do a great job. When that code does the exact same thing every time, to constant values that can be lifted out of the loop, it'll do even better. ...

11

The idea is to use texture mapping as @Hoki showed. I tried to implement this on my end, here is what I came up with.
First we'll need 6 images to apply on the cube faces. These can be any random images of any size. For example:
% just a bunch of demo images from IPT toolbox
function imgs = get_images()
imgs = {
imread('autumn.tif');
...

11

Problem Statement
We have an array of values, vals and runlengths, runlens:
vals = [1,3,2,5]
runlens = [2,2,1,3]
We are needed to repeat each element in vals times each corresponding element in runlens. Thus, the final output would be:
output = [1,1,3,3,2,5,5,5]
Prospective Approach
One of the fastest tools with MATLAB is cumsum and is very ...

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