HOW TO SORT DATA IN CELL ARRAY

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Akshay Sahu il 10 Mar 2020

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https://it.mathworks.com/matlabcentral/answers/510139-how-to-sort-data-in-cell-array

Commentato: Akshay Sahu il 14 Mar 2020

Risposta accettata: Ameer Hamza

Apri in MATLAB Online

A {1x4}

Such that

A = {A{1,1},A{1,2},A{1,3},A{1,4}}
A{1,1}={}
A{1,2}={0.5	0.2
    1	 2
    3	 4
    NaN	NaN
    5	6
    7	8
    9	10
    NaN	NaN}
A{1,3}={0.5    0.8
    5	6
    7	8
    9	10
    NaN	NaN
    11	12
    13	14
    15	16
    17	18
    NaN	NaN}
A {1,4} = {0.7	0.9
    19	20
    NaN	NaN
    25	26
    27	28
    29	30
    31	32
    NaN	NaN}

I want to separate data when there is NaN NaN in the matrix, want to store values before first NaN NaN in one cell array and after NaN NaN in another cell array.

B1 = {A{1, 2}(1:3,:))}
B2 = {A{1, 3}(1:4,:))}
B3 = {A{1, 4}(1:2,:))}
C1 = {A{1, 2}(5:7,:)}
C2 = {A{1, 3}(6:9,:)}
C3 = {A{1, 4}(4:7,:)}
B = {{B1},{B2},{B}}
C = {{C1},{C2},{C3}}

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Luna il 10 Mar 2020

Modificato: Luna il 10 Mar 2020

why are you using cell arrays inside cell arrays? What makes you understand which part belongs to B and which belongs to C?

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Ameer Hamza il 10 Mar 2020

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https://it.mathworks.com/matlabcentral/answers/510139-how-to-sort-data-in-cell-array#answer_419498

Apri in MATLAB Online

Are you looking for something like this code? Note that I have made some modifications to the datatypes and removed A{1,1} = {}, since it makes the code simpler. This code will work as long as there are two nan rows in the matrix.

A{1,1}=[0.5	0.2
    1	 2
    3	 4
    NaN	NaN
    5	6
    7	8
    9	10
    NaN	NaN];
A{1,2}=[0.5    0.8
    5	6
    7	8
    9	10
    NaN	NaN
    11	12
    13	14
    15	16
    17	18
    NaN	NaN];
A{1,3} = [0.7	0.9
    19	20
    NaN	NaN
    25	26
    27	28
    29	30
    31	32
    NaN	NaN];
nan_rows = cellfun(@(x) find(isnan(x), 2), A, 'UniformOutput', 0);
B = cellfun(@(x, y) x(1:y(1)-1, :), A, nan_rows, 'UniformOutput', 0);
C = cellfun(@(x, y) x(y(1)+1:y(2)-1, :), A, nan_rows, 'UniformOutput', 0);

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Ameer Hamza il 14 Mar 2020

Apri in MATLAB Online

Try this. B is a cell array of cell arrays. See the result with indexing like this: B{1}{1}, B{1}{2}, B{2}{1}, ....

A{1,1}=[0.5	0.2
    1	 2
    3	 4
    NaN	NaN
    5	6
    7	8
    9	10
    NaN	NaN
    0.5	0.2
    1	 2
    3	 4
    NaN	NaN];
A{1,2}=[0.5    0.8
    5	6
    7	8
    9	10
    NaN	NaN
    11	12
    13	14
    15	16
    17	18
    NaN	NaN
    0.5    0.8
    5	6
    7	8
    9	10
    NaN	NaN];
A{1,3} = [0.7	0.9
    19	20
    NaN	NaN
    25	26
    27	28
    29	30
    31	32
    NaN	NaN
    0.7	0.9
    19	20
    NaN	NaN];
total_nan_rows = sum(isnan(A{1}(:,1)));
nan_rows = cellfun(@(x) find(isnan(x), total_nan_rows), A, 'UniformOutput', 0);
for i=1:total_nan_rows
    if i==1
        B{i} = cellfun(@(x, y) x(1:y(i)-1, :), A, nan_rows, 'UniformOutput', 0);
    elseif i==total_nan_rows
        B{i} = cellfun(@(x, y) x(y(i-1)+1:end-1, :), A, nan_rows, 'UniformOutput', 0);
    else
        B{i} = cellfun(@(x, y) x(y(i-1)+1:y(i)-1, :), A, nan_rows, 'UniformOutput', 0);
    end
end