how to find mode without built-in mode function?
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any suggestions how to write a function that finds a vectors mode WITHOUT using the built-in mode function?
Answers (3)
the cyclist
on 9 Jun 2013
1 vote
You could use the hist() function, and use the value that has the highest count.
5 Comments
izabela kudela
on 3 Jan 2017
How can I precisely read which value has the highest count?
Walter Roberson
on 3 Jan 2017
[counts, centers] = hist(YourVector);
[~, maxidx] = max(counts);
mode_value = centers(maxidx);
Louise Wade
on 6 Jan 2021
This gives me non-integer values when all values in my array are integers.
the cyclist
on 7 Jan 2021
I think this is because by default, hist() chooses the bin centers by an algorithm that does not guarantee they are in the original vector. Try this instead:
[counts, centers] = histcounts(YourVector,[unique(YourVector) Inf]);
[~, maxidx] = max(counts);
mode_value = centers(maxidx);
the cyclist
on 7 Jan 2021
I realized that that code will not find all the modes, if there are multiple. This code should:
[counts, centers] = histcounts(YourVector,[unique(YourVector) Inf]);
max_value = max(counts);
max_idx = (counts==max_value);
mode_values = centers(max_idx)
Walter Roberson
on 9 Jun 2013
1 vote
unique(), take the third output, put it through accumarray(), find the max()
Roger Stafford
on 9 Jun 2013
Edited: Roger Stafford
on 9 Jun 2013
If you are not allowed to use the 'mode' function, it sounds as though you must use only more primitive functions. Are you allowed to do the following with v as the given column vector?
u = sort(v);
f = find([true;diff(u)~=0;true]);
[~,ix] = max(diff(f));
m = u(f(ix)); % m is most frequent value occurring in v
(Corrected)
5 Comments
dana
on 9 Jun 2013
Roger Stafford
on 9 Jun 2013
There's nothing magic about it. I'll give an example. Let v be:
v = [9;4;2;4;9;2;4]
Then you get
u = sort(v) = [2;2;4;4;4;9;9]
diff(u) = [0;2;0;0;5;0]
diff(u)~=0 = [F;T;F;F;T;F] Where 'T' & 'F' stand for true & false
[true;diff(u)~=0;true] = [T;F;T;F;F;T;F;T]
f = find([true;diff(u)~=0;true]) = [1;3;6;8]
diff(f) = [2;3;2]
max(diff(f)) is max at second value, hence ix = 2
f(ix) = f(2) = 3
m = u(f(ix)) = u(3) = 4 Therefore the mode value is 4
Does that show you the principles involved?
Louise Wade
on 6 Jan 2021
I am trying this and I am getting the below error. Sorry to bring this up on a 7.5 year comment, it's just relevant to something I am doing right now.
Error using vertcat
Dimensions of arrays being concatenated are not consistent.
Error in Question_1 (line 29)
f = find([true;diff(u)~=0;true]);
That depends on the dimensions of v. If it is a column vector this runs without error.
v = [9;4;2;4;9;2;4];
u = sort(v);
[true;diff(u)~=0;true]
v = [9;4;2;4;9;2;4];
v = v.';
u = sort(v);
[true;diff(u)~=0;true]
Louise Wade
on 7 Jan 2021
Edited: Louise Wade
on 7 Jan 2021
I'll try and transpose my row vector into a column vector and try again. If there are multiple values as the mode, would this cause an issue?
EDIT: It seems to be working for me. Thank you so much for helping. All I needed to do was transpose the array.
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on 7 Jan 2021
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