# Profile values between a certain number in a matrix

I am working on a hobby project where I have a matrix 1x1000 with numbers such as 0 30 50 70 100 50 60 0 50 40 30 20 50 0 and so on.

Now I would like to profile all the values in between the 0, so in my example above it would result in [30 50 70 100 50 60] and [50 40 30 20 50]. I have tried `range` but that is probably not the right way to go.

Furthermore, I would like to set a condition that it can only profile if there is a certain amount of numbers between the zeros, for instance 5.

Any help is greatly appreciated!

• what do you mean "profile" – Ander Biguri Sep 13 '16 at 9:58
• I want to plot these profiles later on so something that can be saved, doesn't really matter how. Also interested in the indices so I don't want them excluded. – J.Smith Sep 13 '16 at 10:04

Use find to locate to non-zero numbers. Then find the start and end index of the different segments.

``````% Example input
A = [0 30 50 70 100 50 60 0 50 40 30 20 50 0];

% Find start and end point of segments
validIdx = find(A(:)~=0);
idxEdge = diff(validIdx) > 1;
fromTo = [ validIdx([true ; idxEdge])  validIdx([idxEdge ; true]) ];

% Create segments
C = arrayfun(@(from,to) A(from:to), fromTo(:,1), fromTo(:,2),'UniformOutput',false);
``````

The `arrayfun`at the end could be replaced by a `for`loop to speed up the evaluation

``````C = cell(length(A),1);
for k = 1:size(fromTo,2)
C{k} = A(fromTo(k,1):fromTo(k,2));
end
C(cellfun('isempty',C)) = [];
``````

Giving:

``````celldisp(C)
C{1} =
30    50    70   100    50    60
C{2} =
50    40    30    20    50
``````

To find the segments of a certain minimun length (for example all segments larger than 5)

``````% Get the length of each segment
nNumbers = cellfun(@length, C);
lengthThreshold = 5;
% Remove shorter segments
C = C(nNumbers > lengthThreshold);
``````

Giving:

``````celldisp(C)
C{1} =
30    50    70   100    50    60
``````
• Thanks for your answer. I will use this in a script, when I run this I get "Not enough input arguments". The error is caused by @(from,to) numbersMat(from:to). In my case A is replaced with numbersMat. – J.Smith Sep 13 '16 at 11:40
• I've updated my code to work for both row and column vectors. Also added an my example vector `A` – NLindros Sep 13 '16 at 12:00
• I tried it out and get: Error using vertcat Dimensions of matrices being concatenated are not consistent. This line gives the error: fromTo = [ validIdx([true ; idxEdge]) validIdx([idxEdge ; true]) ]; – J.Smith Sep 13 '16 at 12:18
• Is your input variable a matrix of size 1xN as stated in the question. Or does it differ from the form/class that `A` has in my example? – NLindros Sep 13 '16 at 12:33

I think that in this case a simple loop is the best solution:

``````V = randi(10,500000,1)-1 %random vector generation
V = [0;V;0]; %need to start and end with 0
pos = find(V==0); %find the 0's position
for i = 1:length(pos)-1
M{i} = V(pos(i)+1:pos(i+1)-1);
end

ind = cellfun(@length,M);
M(ind<5) = [];
``````
• True, simpler! Only drawback is that it assume that V should begin and end with an 0, but that seems to be the case in this question (voting up) – NLindros Sep 13 '16 at 12:47
• @nilZ0r Thanks to highlight this problem ! It's corrected now – obchardon Sep 13 '16 at 13:37
• Instead of `floor(rand(500000,1)*10)` just use `randi(10,500000,1)-1`, it's quicker... – EBH Sep 13 '16 at 17:13
• @EBH14 Thanks I edited my answer – obchardon Sep 14 '16 at 7:22

Here is another option that does the follows:

1. Does not assume the vector starts and ends with `0`.
2. Can handle series of `0` within the vector.
3. Eliminates empty cells from the output.
4. Preallocate the output, and loop only on the segments that are above the predefined size

``````minsize = 5; % minimum size for segment
V = (randi(10,50,1)-1)*10; % random vector generation
zero_pos = find([0;V(:);0]==0); % all 0's position
d = diff(zero_pos); % count how large is each segment
% Ignore 0 and <minsize sized segments:
seg_start = zero_pos([true;d>max(minsize,1)])-1;
segments = cell(numel(seg_start)-1,1); % preallocate segments array
for k = 1:numel(seg_start)-1
segments{k,1} = nonzeros(V(seg_start(k)+1:seg_start(k+1)-1)).';
end
``````

and a typical input (`V`) and output(`segments`):

``````V =
Columns 1 through 12
70     0    60    40    40    10    10    10    20    90    70    20
Columns 13 through 24
90    60    10     0    20    60    10    10     0    40    70    90
Columns 25 through 36
0    30    80     0    30    10    40    60    30    60    50    30
Columns 37 through 48
40    10    10    80    80     0    10    20    40    50    20    50
Columns 49 through 50
90    80

segments{1} =
70
segments{2} =
Columns 1 through 12
60    40    40    10    10    10    20    90    70    20    90    60
Column 13
10
segments{3} =
20    60    10    10
segments{4} =
40    70    90
segments{5} =
30    80
segments{6} =
Columns 1 through 12
30    10    40    60    30    60    50    30    40    10    10    80
Column 13
80
segments{7} =
10    20    40    50    20    50    90    80
``````
• Awesome, I will try it out. Just a question, if I run it with a script I would like to save the output somehow so I can display everything later. Is there any way to put this cells into a array or similar? – J.Smith Sep 13 '16 at 22:23
• It's already in a `cell array`, you can't put unequal sized arrays within a matrix. – EBH Sep 13 '16 at 22:38
• I tried it out, it seems to work except that it miss the last number before every 0. Any suggestions? – J.Smith Sep 14 '16 at 8:13
• @J.Smith I can see what you mean, it works right for me. Can you give an example for an input vector that don't work? – EBH Sep 14 '16 at 8:50
• It seems that zero_pos = find([0;V;0]==0); is the problem, as it it giving me "Error using vertcat Dimensions of matrices being concatenated are not consisten". Forgot to mention it but I tried zero_pos = find([0;myVector(:);0]==0); instead and it works but miss one number before each 0. – J.Smith Sep 14 '16 at 10:20