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How to efficiently access multiple value in a cell [ ACCESS MULTIPLE ROW FOR A SINGLE COLUMN]

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balandong
balandong el 9 de Jul. de 2017
Editada: dpb el 10 de Jul. de 2017
Dear Matlab coder, How to access multiple row for a single column in a cell. Currently, I had to use this dumb way to access multiple row for the column 8 as shown below. May I know how to further improve the code? The excel file can be download from DataExcel
function [at] = MeanPVT (at)
for i = 1:length (at.Valindex)
A= (at.Valindex (:,i))';
m1 = (at.raw{A(1),8});
m2 = (at.raw{A(2),8});
m3 = (at.raw{A(3),8});
at.average (i) = (m1+m2+m3)/3;
end
end
On the same note , is it possible to make the code in the function INDEXINGVALUE more compact. Particularly, is there any way I can remove the usage of SWITCH. In the current framework, the state of the CONDITION_3 is depending to the Condition_TTDay. In other word, CONDITION_3 will have 2 or 3 state if the Condition_TTDay is either BL or (SS1 & SS2).
filename = 'DataExcel.xlsx';
[~,~,at.raw] = xlsread(filename,'Sheet1','','basic');
at.Condition_Cond = {'ACond' 'BCond'};
at.Condition_TTDay = {'BL' 'SS1' 'SS2' 'SS3'};
[at] = IndexingValue (at);
[at] = MeanPVT (at);
function [at] = IndexingValue (at)
c= 1;
for i=1:2
for j =1:4
at.condition_1 = at.Condition_Cond {i};
at.condition_2 = at.Condition_TTDay {j};
switch at.condition_2
case 'BL'
for k =1:2
at.condition_3 = k;
at.Valindex (:,c) = calMean (at);
c=c+1;
end
otherwise
for k =1:3
at.condition_3 = k;
at.Valindex (:,c) = calMean (at);
c=c+1;
end
end
end
end
end
function Valindex = calMean (at)
valid = find(cellfun('isclass', at.raw(:,2), 'char') & ...
cellfun('isclass', at.raw(:,3), 'char') & ...
cellfun('isclass', at.raw(:,7),'double'));
Valindex = ...
valid((strcmp(at.raw(valid,2), at.condition_1)) & ...
(strcmp(at.raw(valid,3), at.condition_2)) & ...
([at.raw{valid,7}].' == at.condition_3));
end
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balandong
balandong el 10 de Jul. de 2017
The procedure's objective in calMean is to find the index location which satisfy both the three precedent condition (i.e., condition_1,2 &3). Thus, if I understand your question correctly, the calMean output is not a logical array but a location (i.e., row number) which satisfy the each of the3 condition. Subsequently, this location will be used in MeanPVT. In MeanPVT, the function will first extract the value at each of the cell depending on row ( store in Valindex) and column (i.e., column eight in this example).
dpb
dpb el 10 de Jul. de 2017
Editada: dpb el 10 de Jul. de 2017
Indeed, the index is ok; while length(valid) is shorter than raw valindex does, indeed, hold the locations relative to the full size so it is correct. I got an extra level of nesting in there while reading code first time and was thinking the shortening would've happened before the find operation but as written it doesn't...is ok, yes. Sorry for the sidetrack.

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dpb
dpb el 9 de Jul. de 2017
A first step simplification eliminates superfluous parens and (to my eye, anyway) spaces that make harder to read than without--
for i=1:length(at.Valindex)
A =at.Valindex(:,i).';
m(1)=at.raw{A(1),8};
m(2)=at.raw{A(2),8};
m(3)=at.raw{A(3),8};
at.average(i)=mean(m);
end
which then is seen to be
for i=1:length(at.Valindex)
A =at.Valindex(:,i).';
for j=1:3, m(j)=at.raw{A(j),8}; end
at.average(i)=mean(m);
end
But, addressing by vector for rows for a fixed column is the same result in Matlab--
for i=1:length(at.Valindex)
A =at.Valindex(:,i).';
at.average(i)=mean(at.raw{A(1:3),8});
end
Will be a little more efficient if preallocate at.average to size loop upper limit.
What is at.Valindex, specfically? It may be doable to use arrayfun() or other vector operations and eliminate the loop entirely.
On the other question, I'd venture the answer is probably 'yes' but I'm out of time at the moment; maybe somebody else will take a look there...
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dpb
dpb el 10 de Jul. de 2017
Well, that's what I presumed -- without seeing the details of what you did why the vector access wouldn't be precisely the same as the loop -- small demo:
>> raw=randn(10,8); % source array w/ 8 columns
>> A=randi(10,1,3); % pick 3 random indices inside
>> A(1:3) % which three for curiosity
ans =
6 8 10
>> raw(A(1:3),8).' % what do we get?
ans =
-0.1713 1.8702 -0.8394
>> for i=1:3,disp(raw(A(i),8)),end % compare to loop
-0.1713
1.8702
-0.8394
>>
Identically the same three elements were returned...hence
>> mean(raw(A(1:3),8))
ans =
0.2865
>> s=0;for i=1:3,s=s+(raw(A(i),8));end,s/3
ans =
0.2865
>>
are also the same...
There's an implementation error or that's not the actual data arrangement you've got, one...
balandong
balandong el 10 de Jul. de 2017
Hi DBP,
Thanks for the clarification. There are slight implementation error on my side. Thanks for your response

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