# Loop / indexing query in MATLAB

I have a matlab code that I eventually want to use to find the output from 50 sources randomly placed inside a grid and summed; at the moment I can get it to work for one source; the code is something like this;

``````%required constants
ro = 5*10^-6;
po = 40;
a = 5.9336*10^-6;
D = 2*10^-9;
f = 2.6835*10^-7;
mult = a/(4*f*D);
rc = 6.0260e-05
pop = 5:1:495;

%initialise 500 x 500 array to zero
pp = zeros(500,500);

i = 1;

while i < 2

x(i) = randsample(pop,1);
y(i) = randsample(pop,1);

%randomly selections an x,y point on grid - the below if loop sets a boundary of %+/70     %microns from the point to examine. The min lower point in x and y is 1, max 500;

if x(i) - 70 > 0 && x(i) + 70 <= 500 && y(i) - 70 > 0 && y(i) + 70 <= 500

xb(i) = x(i) - 70;
xu(i) = x(i) + 70;

yb(i) = y(i) - 70;
yu(i) = y(i) + 70;

elseif x(i) - 70 < 0 && x(i) + 70 <= 500 && y(i) - 70 > 0 && y(i) + 70 <= 500

xb(i) = 1;
xu(i) = x(i) + 70;

yb(i) = y(i) - 70;
yu(i) = y(i) + 70;

elseif x(i) - 70 > 0 && x(i) + 70 > 500 && y(i) - 70 > 0 && y(i) + 70 <= 500

xb(i) = x(i) - 70;
xu(i) = 500;

yb(i) = y(i) - 70;
yu(i) = y(i) + 70;

elseif x(i) - 70 > 0 && x(i) + 70 <= 500 && y(i) - 70 < 0 && y(i) + 70 <= 500

xb(i) = x(i) - 70;
xu(i) = x(i) + 70;

yb(i) = 1;
yu(i) = y(i) + 70;

elseif x(i) - 70 > 0 && x(i) + 70 <= 500 && y(i) - 70 > 0 && y(i) + 70 > 500

xb(i) = x(i) - 70;
xu(i) = x(i) + 70;

yb(i) = 1;
yu(i) = 500

end

%now test boundaries established, we use our equation for the source....

for xm = xb:xu
for ym = yb:yu
H(xm,ym) = (sqrt((xm - x).^2 + (ym - y).^2))*10^-6;
%H is a distance; if beyond rc, source is zero
if  H(xm,ym) > rc
pp(xm,ym) = 0;
elseif  H(xm,ym) < ro
pp(xm,ym) = po;
else
pp(xm,ym) = po + mult.*(H(xm,ym).^2 - ro^2 - 2.*rc^2.*log(H(xm,ym)./ro));
end
end
end
i = i + 1
end
``````

This works very well for just one source; the code as it is produces a single source perfectly. But I'm running into trouble trying to generalise upwards to while i < 51 ; basically, I want to modify the code so that a 500 x 500 matrix pp is created each run of the while loop, and instead of over-writing the previous ones, these pps are summed together so get all sources.

I tried modifying H and pp etc to be functions of i,xm,ym etc but this didn't seem to work for me - any suggestions / examples of how I might do this? Thanks!

-
apologies, it's MATLAB...one moment and I'll try to add that! –  DRG May 2 '13 at 15:00
Do you actually want the 500x500 pp matrix to be saved for each iteration, or it a single 500x500 pp matrix that is the sum of teh entire loop what you're after? Or both? –  KitsuneYMG May 2 '13 at 15:14
Both ideally - so I can understand better how to code this! thanks! –  DRG May 2 '13 at 15:21

I don't have matlab in front of me, ATM, but I think this should work. I didn't bother checking if `xm` or `ym` could be negative or zero or greater than 500.

For creating an 500 x 500 X 51 pp, simply do...

This will maintain a running sum.

``````pp = zeros([500 500 51]);
% removed for brevity

for i=1:51 %instead of while, which is less efficient
% removed for brevity
for xm = xb:xu
for ym = yb:yu
H(xm,ym) = (sqrt((xm - x).^2 + (ym - y).^2))*10^-6;
%H is a distance; if beyond rc, source is zero
if  H(xm,ym) > rc
pp(xm,ym,i) =  0;
elseif  H(xm,ym) < ro
pp(xm,ym,i) = po;
else
pp(xm,ym,i) =mult.*(H(xm,ym).^2 - ro^2 - 2.*rc^2.*log(H(xm,ym)./ro));
end
end
end
end
``````

This gives you a 500 x 500 x 51 matrix pp. Any given 500x500 can be extracted using `pp(:,:,index)`. The sum can be obtained with `sum(pp,3)`

-
Thank you! This works great; the only change one has to make is to ALSO define H as a function of i so that H(xm,ym,i). Thanks again - sorry for delay in reply! –  DRG May 8 '13 at 9:27