A reasonably effective approach if the final division will be by an odd number and the result will always be positive is to divide by half that value, add one, and divide by two. If the result may be negative, you should if possible add an amount that will make everything be positive, do the computation, and then subtract a corresponding amount afterward.
For example, to compute a*5/7, rounded, compute
(a*10+1)>>1. The one thing to watch out for is that you may need to extend your values to a larger numeric type to avoid overflow or, if that isn't possible, subdivide the division into pieces. For example, to compute a*14/15, you might compute ((a*4/3*7)/5+1)/2. That computation may still overflow if a is too big, but the allowable range will be three times as big as if it was evaluated without doing the divide by 3 before the other division. Note that subdividing the operation will make the rounding slightly less precise, but still close enough for many purposes.