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I'm trying to come up with a summation of variables within a model field of 27 layers. Most of the variables are applicable at each layer, but for one of the variables I'm gauging a change in height and therefore subtracting the previous layers "top height" from the total height at the given layer.

Basically, I'm just not sure how to represent a cumulative sum at any point using for loops.

I'm currently trying, per my code, to use two for loops to do the cumulative sum and getting the error.

"Attempted to access flheight(299,162,0,12); index must be a positive integer or logical." 

I know that is because "flheight(299,162,0,12)" doesn't exist because there is no "layer = 0" for the third dimension.

no2molcm2 = 0;
dh = 0;
patm = 0;
no2ppm = 0;
for n=0:26
    for i=1:27
        T = Temp(299,162,i,12); % K 
        dh = (flheight(299,162,i,12)*100) -flheight(299,162,n,12)*100;
        patm = sum(Pres(299,162,i,12))*(1/101325); %atm
        R = 82.06; % cm3*atm/(k*mol)
        av = 6.022140857747*(10^23); % 1/mol
        no2ppm =  sum(no2(299,162,i,12));
        no2molcm2 = cumsum(((no2ppm*av*patm)/(R*T))*dh);
    end
end

My question here is how on earth can I tell matlab that when it sees this input (or the error output) to just set this equal to zero?

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So, per a comment I realized I should just take the easy way and specify the first layer manually then sum the remaining ones. Here is the code that fixed it:

latco = 1;
lonco = 200;
layer1 = (no2(latco,lonco,1,12)*av*(Pres(latco,lonco,1,12)* 
   (1/101325)))/(R*Temp(latco,lonco,1,12)*h1);
        for n=1:26
        for i=2:27
                T = Temp(latco,lonco,i,12); % K 
                dh1 = flheight(latco,lonco,i,12)*100;
                dh2 = flheight(latco,lonco,n,12)*100;
                dh = dh1 - dh2;
                patm = sum(Pres(latco,lonco,i,12))*(1/101325); %atm
                no2ppm =  no2(latco,lonco,i,12);
                no2molcm2_26 = sum(((no2ppm*av*patm)/(R*T))*dh);
            end
        end

no2final = layer1 + no2molcm2_26
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Using a try-catch structure might be the simplest and most straightforward quickfix to what you asked.

try
    "something that can go wrong"
catch ME
    "what to do if it didn't work"
end

Note that if you know the reason to the error, the best practice is to check if the reason will be applicable . i.e. if(i==0) (do what you must). Otherwise, unexpected error cases are simply suppressed.

  • A bit like taking a cannon to fire on a mosquito. Effective, but quite overkill. – Adriaan Feb 14 at 20:16

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