What does A(2:4) = [ ] do if A is a 3x3 matrix?

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Chrisbel Rueda el 17 de Mayo de 2022

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Comentada: John D'Errico el 17 de Mayo de 2022

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This is my original matrix:

And this is the result:

This is the code:

A= [5 17 61; 32 80 -44; -1 -11 -13]
A(2:4) = []

I don't understand what it does.

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Answer 1

James Tursa el 17 de Mayo de 2022

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Editada: James Tursa el 17 de Mayo de 2022

This is linear indexing. Even though the variable is a 2D matrix, MATLAB allows you to index into it using only one index. The linear indexes are simply numbered 1-numel(variable) (1-9 in your case) as they are ordered in memory. MATLAB will delete the 2nd, 3rd, and 4th element of the variable and return the result as a 1D vector. Since MATLAB stores variables in column order, this means the 32, -1, and 17 values are deleted.

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Steven Lord el 17 de Mayo de 2022

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Yup. You can see this more clearly if you use linear indexing on the whole array.

A= [5 17 61; 32 80 -44; -1 -11 -13]
A = 3×3
     5    17    61
    32    80   -44
    -1   -11   -13
B = A(1:end)
B = 1×9
     5    32    -1    17    80   -11    61   -44   -13

John D'Errico el 17 de Mayo de 2022

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Yes. remember that MATLAB effectively stores all arrays, 2-d, 3-d, etc. internally as just a list of elements. As well, it stores the shape of that array separately.

But when you access an array using just ONE argument, MATLAB sees you want it to index into the array, as if it were a vector! We can do that!

You have this:

A= [5 17 61; 32 80 -44; -1 -11 -13]
A = 3×3
     5    17    61
    32    80   -44
    -1   -11   -13

But MATLAB stores that as a simple list of elements, plus the final shape. So if you did

That returns the elements as a vector, IN THE ORDER THEY ARE STORED. Now if you access

A(2:4)
ans = 1×3
    32    -1    17

it gives you only those elements. Finally, when you do this:

A(2:4) = []
A = 1×6
     5    80   -11    61   -44   -13

That deletes the specific elements we chose, thus the 2nd, 3rd, and 4th elements. Since the result would now make no sense at all as an array, we get the result you observed.

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