I have a very large matrix (750000 x 6) where I have a column of time for stock prices. The time intervals are not uniform, therefore I interpolated the new times. Since I only want to include times during working hours on weekdays, I have a for loop which checks if the interpolated times are within that, and copies those entries to a new matrix. However, my program takes forever to run (>10mins). This is my original code:
A = IBM; times = A(:,1); incr = t; uniqday = datevec(times); uniqday = unique(uniqday(:,1:3), 'rows'); % unique days for data % Computes interpolated prices at sampling interval interptimes = (times(1):incr:times(end)).'; % Fractional hours into the day frac_hours = 24*(interptimes - floor(interptimes)); % Exclude interpolated times outside of trading hours newtimes = interptimes((frac_hours > 0) & (frac_hours < 19.1)); % Exclude weekends & holidays newtimesvec = datevec(newtimes); newtimesvec2 = zeros(length(newtimesvec),6); for j = 1:length(uniqday) for i = 1:length(newtimesvec) if newtimesvec(i,1:3) == uniqday(j,:) newtimesvec2(i,:) = newtimesvec(i,:); else %Program always get stuck at this line end end end
So I thought maybe deleting the entries in the interpolated time array would be faster instead of copying to a new matrix, but when an entry gets deleted, the interpolated time array changes size, so this for loop would cause it to access outside the matrix. I'm not sure how I can fix this.
for i = 1:length(interptimes) for j = 1:length(uniqday) if interptimes(j,1:3) == uniqday(j,:) else interptimes(j,:) = ; end end end