Easiest way to create a line from 2 XY coordinates
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Lina Koronfel
el 24 de Feb. de 2022
Comentada: Lina Koronfel
el 1 de Abr. de 2022
What is the fastest way or the best way to transfer these values to an array to obtain an output that is the distance between Point(X1,Y1) and Point(X2,Y2) for every iteration? The original data is 300,000 iterations, so I want to end up with a vector of 300,000 distance values
Iter X1 Y1 X2 Y2
0 125.1673584 13.18046188 194.4534607 176.9597931
1 126.4874725 13.56817341 196.5686646 176.3899078
2 125.1508484 13.18618774 196.9122314 175.5451508
3 125.8279877 12.93647861 195.5947876 176.2555695
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Scott MacKenzie
el 24 de Feb. de 2022
MATLAB's hypot function is probably your best bet:
M = [0 125.1673584 13.18046188 194.4534607 176.9597931;
1 126.4874725 13.56817341 196.5686646 176.3899078;
2 125.1508484 13.18618774 196.9122314 175.5451508;
3 125.8279877 12.93647861 195.5947876 176.2555695]
d = hypot(M(:,2)-M(:,4), M(:,3)-M(:,5))
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Walter Roberson
el 29 de Mzo. de 2022
hypot is consistently slower than square root of sum.
The difference is that hypot has code in order to be able to give useful answers for cases where the squares would overflow to infinity or underflow to 0, and for those cases it can be very valuable. But if you are certain you will never encounter those cases then manual calculation is faster.
N = 20;
t1 = zeros(N,1); t2 = zeros(N,1);
M = [(1:300000)' rand(300000,4)];
for K = 1 : N; start = tic; d = hypot(M(:,2)-M(:,4), M(:,3)-M(:,5)); stop = toc(start); t1(K) = stop; end
for K = 1 : N; start = tic; d = sqrt((M(:,2)-M(:,4)).^2 + (M(:,3)-M(:,5)).^2); stop = toc(start); t2(K) = stop; end
plot([t1, t2])
legend({'hypot', 'sqrt sum'})
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