Having each row compare its string with other rows within the problem and getting corresponding data relative to the string in other columns.

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Sai Gudlur
Sai Gudlur am 19 Aug. 2023
Bearbeitet: Bruno Luong am 20 Aug. 2023
Hello,
I am stuck at this point where I want to run a for loop through the column with multiple rows has strings. I want to compare each row to its adjacent row if same then take its corresponding values. Each time the string is different.
I am unable to use strcmp/pattern as I can't list all the strings that need to be compared.
I was hoping if I could run a for loop on the first column and each row is compared to every ROW and same string will extract itself together.
Have attahced a sample file with Dummy variables.
*******************************************************************************************************************************************************************
A = readtable("C:\Users\gudlu\OneDrive\Documents\Matlab\Book1.xlsx");
headers = table2array(A(:,1));
Sorry unable to move beyond this.
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Stephen23
Stephen23 am 20 Aug. 2023
Bearbeitet: Stephen23 am 20 Aug. 2023
The sample data file you uploaded includes the text ABCDF four times, on rows 1, 41, 45, and 49. You only include rows 1, 45, and 49 in the desired output, i.e. row 41 is excluded. I do not understand the rule, perhaps I missed that part of your explanation: please clarify why row 41 is not part of the output.
I also don't understand how your exected output matches your description "I want to compare each row to its adjacent row if same then take its corresponding values". As far as I can tell, you did not compare adjacent rows, but rather all rows with the text in cell A1 (plus some as-yet secret rule for ignoring other rows). In any case, rows 45 and 49 are not adjacent to A1, so it is unclear to me what you want.
Sai Gudlur
Sai Gudlur am 20 Aug. 2023
It isn't that is not part of my output I just pasted a small snippet and a quick example. It is part of it. As mentioned earlier if the headers are same they need to be grouped together irrespective of their number of occurances.

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Bruno Luong
Bruno Luong am 20 Aug. 2023
Bearbeitet: Bruno Luong am 20 Aug. 2023
Ran in:
Not sure if you want this
A=readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/1460327/Book1.xlsx');
header=A.Var1;
compareStrings = {'ABCDF';'defggt';'ALLLDKKD'};
C = cell(size(compareStrings));
for k=1:length(compareStrings)
C{k} = A(strcmp(header, compareStrings{k}),:);
end
C{:}
ans = 4×3 table
Var1 Var2 Var3 _________ ________ ________ {'ABCDF'} 0.52474 0.85068 {'ABCDF'} 0.14364 0.25306 {'ABCDF'} 0.030389 0.068798 {'ABCDF'} 0.6799 NaN
ans = 14×3 table
Var1 Var2 Var3 __________ _______ _______ {'defggt'} 0.80452 0.55857 {'defggt'} 0.12369 0.35813 {'defggt'} 0.6379 0.25596 {'defggt'} 0.89595 0.46676 {'defggt'} 0.54452 0.43122 {'defggt'} 0.76044 0.40233 {'defggt'} 0.38287 0.85625 {'defggt'} 0.73387 0.37358 {'defggt'} 0.83975 0.21899 {'defggt'} 0.82822 0.43342 {'defggt'} 0.12952 0.07045 {'defggt'} 0.87132 0.91706 {'defggt'} 0.7532 0.18353 {'defggt'} 0.55729 NaN
ans = 12×3 table
Var1 Var2 Var3 ____________ ________ _______ {'ALLLDKKD'} 0.81691 0.90177 {'ALLLDKKD'} 0.821 0.48899 {'ALLLDKKD'} 0.01612 0.92917 {'ALLLDKKD'} 0.51538 0.25401 {'ALLLDKKD'} 0.60644 0.70253 {'ALLLDKKD'} 0.85535 0.18184 {'ALLLDKKD'} 0.084649 0.5842 {'ALLLDKKD'} 0.33199 0.22169 {'ALLLDKKD'} 0.37172 0.52223 {'ALLLDKKD'} 0.17652 0.7413 {'ALLLDKKD'} 0.083156 0.75819 {'ALLLDKKD'} 0.70004 0.73707
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Bruno Luong
Bruno Luong am 20 Aug. 2023
Bearbeitet: Bruno Luong am 20 Aug. 2023
Ran in:
You can set compareStrings = unique(header); then continue as the rest
A=readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/1460327/Book1.xlsx');
header=A.Var1;
compareStrings = unique(header);
% the do the same thing
C = cell(size(compareStrings));
for k=1:length(compareStrings)
C{k} = A(strcmp(header, compareStrings{k}),:);
end
C{:}
ans = 4×3 table
Var1 Var2 Var3 _________ ________ ________ {'ABCDF'} 0.52474 0.85068 {'ABCDF'} 0.14364 0.25306 {'ABCDF'} 0.030389 0.068798 {'ABCDF'} 0.6799 NaN
ans = 12×3 table
Var1 Var2 Var3 ____________ ________ _______ {'ALLLDKKD'} 0.81691 0.90177 {'ALLLDKKD'} 0.821 0.48899 {'ALLLDKKD'} 0.01612 0.92917 {'ALLLDKKD'} 0.51538 0.25401 {'ALLLDKKD'} 0.60644 0.70253 {'ALLLDKKD'} 0.85535 0.18184 {'ALLLDKKD'} 0.084649 0.5842 {'ALLLDKKD'} 0.33199 0.22169 {'ALLLDKKD'} 0.37172 0.52223 {'ALLLDKKD'} 0.17652 0.7413 {'ALLLDKKD'} 0.083156 0.75819 {'ALLLDKKD'} 0.70004 0.73707
ans = 20×3 table
Var1 Var2 Var3 ______________ ________ _________ {'AYYSBSABDB'} 0.18947 0.41952 {'AYYSBSABDB'} 0.87988 0.84733 {'AYYSBSABDB'} 0.044079 0.67988 {'AYYSBSABDB'} 0.68672 0.13665 {'AYYSBSABDB'} 0.73377 0.8584 {'AYYSBSABDB'} 0.43717 0.19983 {'AYYSBSABDB'} 0.37984 0.60734 {'AYYSBSABDB'} 0.97966 0.54304 {'AYYSBSABDB'} 0.39899 0.16232 {'AYYSBSABDB'} 0.44019 0.0056531 {'AYYSBSABDB'} 0.15681 0.77149 {'AYYSBSABDB'} 0.32603 0.76479 {'AYYSBSABDB'} 0.31406 0.42107 {'AYYSBSABDB'} 0.8945 0.056813 {'AYYSBSABDB'} 0.24702 0.58575 {'AYYSBSABDB'} 0.31068 0.17416
ans = 14×3 table
Var1 Var2 Var3 __________ _______ _______ {'defggt'} 0.80452 0.55857 {'defggt'} 0.12369 0.35813 {'defggt'} 0.6379 0.25596 {'defggt'} 0.89595 0.46676 {'defggt'} 0.54452 0.43122 {'defggt'} 0.76044 0.40233 {'defggt'} 0.38287 0.85625 {'defggt'} 0.73387 0.37358 {'defggt'} 0.83975 0.21899 {'defggt'} 0.82822 0.43342 {'defggt'} 0.12952 0.07045 {'defggt'} 0.87132 0.91706 {'defggt'} 0.7532 0.18353 {'defggt'} 0.55729 NaN
or split without loop
A=readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/1460327/Book1.xlsx');
header=A.Var1;
[compareStrings, ~, J] = unique(header); % compareStrings is no needed for the rest
[Js, is] = sort(J);
n = diff(find([true; diff(Js); true]));
C = mat2cell(A(is,:), n, size(A,2));
C{:}
ans = 4×3 table
Var1 Var2 Var3 _________ ________ ________ {'ABCDF'} 0.52474 0.85068 {'ABCDF'} 0.14364 0.25306 {'ABCDF'} 0.030389 0.068798 {'ABCDF'} 0.6799 NaN
ans = 12×3 table
Var1 Var2 Var3 ____________ ________ _______ {'ALLLDKKD'} 0.81691 0.90177 {'ALLLDKKD'} 0.821 0.48899 {'ALLLDKKD'} 0.01612 0.92917 {'ALLLDKKD'} 0.51538 0.25401 {'ALLLDKKD'} 0.60644 0.70253 {'ALLLDKKD'} 0.85535 0.18184 {'ALLLDKKD'} 0.084649 0.5842 {'ALLLDKKD'} 0.33199 0.22169 {'ALLLDKKD'} 0.37172 0.52223 {'ALLLDKKD'} 0.17652 0.7413 {'ALLLDKKD'} 0.083156 0.75819 {'ALLLDKKD'} 0.70004 0.73707
ans = 20×3 table
Var1 Var2 Var3 ______________ ________ _________ {'AYYSBSABDB'} 0.18947 0.41952 {'AYYSBSABDB'} 0.87988 0.84733 {'AYYSBSABDB'} 0.044079 0.67988 {'AYYSBSABDB'} 0.68672 0.13665 {'AYYSBSABDB'} 0.73377 0.8584 {'AYYSBSABDB'} 0.43717 0.19983 {'AYYSBSABDB'} 0.37984 0.60734 {'AYYSBSABDB'} 0.97966 0.54304 {'AYYSBSABDB'} 0.39899 0.16232 {'AYYSBSABDB'} 0.44019 0.0056531 {'AYYSBSABDB'} 0.15681 0.77149 {'AYYSBSABDB'} 0.32603 0.76479 {'AYYSBSABDB'} 0.31406 0.42107 {'AYYSBSABDB'} 0.8945 0.056813 {'AYYSBSABDB'} 0.24702 0.58575 {'AYYSBSABDB'} 0.31068 0.17416
ans = 14×3 table
Var1 Var2 Var3 __________ _______ _______ {'defggt'} 0.80452 0.55857 {'defggt'} 0.12369 0.35813 {'defggt'} 0.6379 0.25596 {'defggt'} 0.89595 0.46676 {'defggt'} 0.54452 0.43122 {'defggt'} 0.76044 0.40233 {'defggt'} 0.38287 0.85625 {'defggt'} 0.73387 0.37358 {'defggt'} 0.83975 0.21899 {'defggt'} 0.82822 0.43342 {'defggt'} 0.12952 0.07045 {'defggt'} 0.87132 0.91706 {'defggt'} 0.7532 0.18353 {'defggt'} 0.55729 NaN
or if you want them in a same table
A=readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/1460327/Book1.xlsx');
[~,is] = sort(A.Var1);
B = A(is,:)
B = 50×3 table
Var1 Var2 Var3 ____________ ________ ________ {'ABCDF' } 0.52474 0.85068 {'ABCDF' } 0.14364 0.25306 {'ABCDF' } 0.030389 0.068798 {'ABCDF' } 0.6799 NaN {'ALLLDKKD'} 0.81691 0.90177 {'ALLLDKKD'} 0.821 0.48899 {'ALLLDKKD'} 0.01612 0.92917 {'ALLLDKKD'} 0.51538 0.25401 {'ALLLDKKD'} 0.60644 0.70253 {'ALLLDKKD'} 0.85535 0.18184 {'ALLLDKKD'} 0.084649 0.5842 {'ALLLDKKD'} 0.33199 0.22169 {'ALLLDKKD'} 0.37172 0.52223 {'ALLLDKKD'} 0.17652 0.7413 {'ALLLDKKD'} 0.083156 0.75819 {'ALLLDKKD'} 0.70004 0.73707

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