Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them, it only takes a minute:

From the following example:

x = 1 + (10-1)*rand(1,100);
x(12:22) = 20 + (30-20)*rand(1,11);
x(70:94) = 20 + (30-20)*rand(1,25);

Here I am attempting a couple of things. Firstly I am trying to find the row number for the first value that is greater than 20 where the number of successive values >20 is more than 24. So in this example I would like to return the row number 70.

I can do this by:

y = x > 20;
k = [strfind([~y(1),y],[0 1]);strfind([y,~y(end)],[1 0])];
idx = k(1,diff(k) + 1 > 24);

However, I would also like to replace the first set of values (which did not include more than 24 successive values > 20) to nan. How can I achieve this?

share|improve this question
Your line k = [strfind([~y(1),y],[0 1]);strfind([y,~y(end)],[1 0])]; is giving a horzcat error. –  AGS Aug 15 '12 at 10:56
please view amended question. The vectors needed to be transposed. –  KatyB Aug 15 '12 at 11:09

3 Answers 3

up vote 3 down vote accepted

You already have a fine solution for finding idx, maybe find is better suited, I don't know:

y = x > 20;
kstart = find(diff([0 y])==1);
kend   = find(diff([y 0])==-1);
klen   = kend-kstart+1;

idx = kstart(find(klen>=24,1,'first')); %*

*yes, I know you can omit 'first', but it's there for clarity.

Anyway: to replace the first set of values (those who have index<idx) use:

x(1:idx-1) = NaN;

Or if you meant to only replace all the numbers larger than 20 before idx:

x(y(1:idx-1)) = NaN;
share|improve this answer
Why 1:idx-1? Shouldn't it be kstart(idx):kend(idx) like the OP wants? –  Eitan T Aug 15 '12 at 14:13
@EitanT kstart(idx):kend(idx) wouldn't make any sense, since idx is an index to the original data vector, whilst kstart and kend are also indices to the original vector.. I read OP's question as: set the whole set of values (in the beginning of the vector) which do not contain 24 consecutive numbers larger than 20, to NaN, see my edit for another interpretation... –  Gunther Struyf Aug 15 '12 at 15:47
For some reason I thought idx was the result of find, but now I see it's a subset of kstart. In any case, I believe the OP wanted to replace the first sequence of x>20 that is not longer than 24 to NaN, so based on this your answer is still flawed even though being accepted... –  Eitan T Aug 16 '12 at 9:12
@EitanT It still depends on how you define a set; in OP's example there was only one consecutive series before idx, so yeah, no difference there. And imo my answer is what OP intended... certainly because the question would be trivial otherwise, since she already had the start and end points of the series x>20 in the variable k –  Gunther Struyf Aug 16 '12 at 9:57
If it's trivial because the start and end are known, then the answer for your interpretation is also trivial. Maybe I'm just over-analyzing it, IDK. In any case, your answer deserves +1. –  Eitan T Aug 16 '12 at 10:20

I'd like to the set of already good solutions.

You could use a convolution as well:

tmp = conv(x>20, ones(1,25));
inds = find(tmp==25)
first_indes = inds(1);
share|improve this answer

As for the first part of your question, here's a one-liner for finding all the indices of 25 or more successive occurrences of elements greater than 20:

idx = strfind((x(:)' > 20), ones(1, 25));

Use idx(1) to obtain the first index, which is 70 in your example.

As for the second part of your question, here's a solution:

idx_start = strfind([0, x(:)'] > 20, [0 1]);           %# Start indices
len = strfind([x(:)' > 20, 0], [1 0]) - idx_start + 1; %# Sequence lengths
first = find(len < 25, 1);                             %# First desired sequence
x(idx_start(first):idx_start(first) + len(first) - 1) = NaN;

Note that this replaces only the first successive occurences of x > 20, which are no more than 24.

share|improve this answer
errors when x(1)>20 ... –  Gunther Struyf Aug 15 '12 at 15:56
@GuntherStruyf Thanks for the comment, fixed. –  Eitan T Aug 15 '12 at 21:54

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.