# Matlab and sorting single results to a matrix

``````for i=1:1:k   %k = 100 people
for j=1:1:l  %l = 5 orders
Resultx = a + b + d(j); % cost of drink Resultx
Resulty = f + g + c(j); % cost of food Resulty
end
Matrix(i) = [Resultsx1...j Resulty1...j]
end
``````

Those `% notes` are for helping me express the problem I want to solve in my mind, and later on, in my script.

Lets claim that we want for each `i` to store values in a matrix of costs of the drinks and food it orders.

So for people `i = 1`,

``````1[1 5] %people 1, first order:  drink costs 1 and food costs 5
2[2 3] %people 1, second order: drink costs 2 and food costs 3
...
j[x y] %people 1, j order:      drink and food costs x and y
!!!       Matrix(1) = sort (j [x,y])    !!!
``````

for people `i = 2`,

``````1[1 5] %people 2, first order:  drink costs 1 and food costs 5
2[2 3] %people 2, second order: drink costs 2 and food costs 3
...
j[x y] %people 2, j order:      drink and food costs x and y
!!!       Matrix(2) = sort (j [x,y])    !!!
``````

for people `i = k`,

``````1[1 5] %people k, first order:  drink costs 1 and food costs 5
2[2 3] %people k, second order: drink costs 2 and food costs 3
...
j[x y] %people k, j order:      drink and food costs x and y
!!!       Matrix(i) = sort (j [x,y])    !!!
``````

I want to form every result of each `i`th iteration to a Matrix in ascending order

``````Matrix(i) = sort (j [x,y]).
``````

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Your wording is a little vague: 1) the definition of `sort(j [x, y])` is not clear. 2) Is `Matrix(i)` a scalar or an entire row? Can you provide a valid mathematical formula for it? 3) You're using `k` both as a number (in the external `for` loop) and as a function/vector (in the computation of `Resultx`). Which is correct? –  Eitan T Nov 12 '12 at 21:40
Do you put price of food and price of drinks in the same array and mix them (and then you want to sort that array) or do you want for those two values to be ordered pair (and then want to sort that array of ordered pairs). If you want the latter you should precisely define comparator according to which you want to sort... –  plesiv Nov 12 '12 at 21:42
@EitanT: 1. I wanna sort each i results in ascending order of the (Resultx and Resulty) of j, for every i, sort(Resultx(j),Resulty(j)). 2. Can not my mind is ready to blow atm, sorry. 3. fixed. –  professor Nov 12 '12 at 22:05
@zplesivcak: I want every array of the Matrix to contain pairs of (Resultx(j),Resulty(j)) and then this matrix to be sorted in pairs so i can choose the min or the max of the matrix, according to sorting, by index parsing of the sorted pairs/elements. –  professor Nov 12 '12 at 22:06
I just can't resist: "i wanna" is how you say it in the streets of most US cities; it's not actually English. Please make a habit of writing "I want to" ("I" is ALWAYS capitalized, and "wanna" is a contraction of "want to" used in spoken language only). I won't go into discussing the importance of correct punctuation here...:) –  Rody Oldenhuis Nov 13 '12 at 8:26

(Two ways I understood your statement; I'm presuming you're interested in 2. solution. In this form `Resultx` and `Resulty` don't depend on `i` in any way, and therefore they'll be the same for all the "people").

1. `Matrix` is [ k x 2 ] array. Results from second loop are summed up!

``````Matrix = zeros(k, 2);                 % pre-allocate space

for i=1:1:k   %k = 100 people
Resultx = 0;
Resulty = 0;
for j=1:1:l  %l = 5 orders
Resultx = Resultx + a + b + d(j);       % cost of drink Resultx
Resulty = Resulty + f + g + c(j);       % cost of food Resulty
end
Matrix(i,:) = [Resultx, Resulty]  % save pair
end

Sorted = sortrows(Matrix, [1 2]);     % sort pairs
``````

Last command sorts pairs, first by 1st column, then by 2nd column in ascending order. If you would like descending order for both criteria, you would use `[-1 -2]` instead. Combining ascending and descending is also possible (for example `[-1 2]`) but senselessness is questionable in this case.

2. `Matrix` is [ k x l x 2 ] array in which the results are kept individually and are not summed up in second loop.

``````Matrix = zeros(k, l, 2);              % pre-allocate space
Intermediate = zeros(l, 2);           % container used for sorting

for i=1:1:k   %k = 100 people
for j=1:1:l  %l = 5 orders
Resultx = a + b + d(j);       % cost of drink Resultx
Resulty = f + g + c(j);       % cost of food Resulty
Intermediate(j,:) = [Resultx, Resulty];  %save pair
end
Matrix(i,:,:) = sortrows(Intermediate, [1 2]);  % sort pairs
end
``````

Note: You should do avoid writing loops in Matlab and resort to vectorized solution wherever possible!

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Exactly what i was looking for, thank you so much. –  professor Nov 13 '12 at 9:05
+1 for understanding something from that foggy question. –  avip Nov 13 '12 at 9:15
@zplesivcak: For 2nd solution, which is suitable to my occasion, 'Sorted = sortrows(Matrix, [1 2]);' returns error: Error using sortrows, X must be a 2-D matrix. Also on 'Matrix(i,:,:) = sortrows(Intermediate, [1 2]);' if you change [1 2] to [1 -2] sort does not change. I am trying to investigate this and i ll report back. –  professor Nov 13 '12 at 12:56
@professor I'm sorry, that was a relic; fixed now. Second criteria (`2` or `-2` in your case; for second column) is used only if pairs are equal comparing by first criteria (1st column) - see reference! –  plesiv Nov 13 '12 at 13:38