I suspect that casting to string and then checking for the character '0' is the step that takes too long. If you want to avoid all zeroes, might help to increase
(Edited -- thanks to Aaron McSmooth)
for( int i = 10000000; i >= 10; i = i / 10 )
if ( current % i ) == 0
current = current + ( i / 10 );
This is untested, but the concept should be clear: whenever you hit a multiple of a power of ten (e.g. 300 or 20000), you add the next lower power of 10 (in our examples 10 + 1 and 1000 + 100 + 10 + 1, respectively) until there are no more zeroes in your number.
while loop accordingly and see if this doesn't help performance to the point were your problem becomes manageable.
Oh, and you might want to restrict the
System.out output a bit as well. Would every tenth, one hundreth or 10000th iteration be enough?
Edit the second:
After some sleep, I suspect my answer might be a little short-sighted (blame the late hour, if you will). I simply hoped that, oh, one million iterations of
current would get you to the solution and left it at that, instead of calculating the correction cases using
log( current ) etc.
On second thought, I see two problems with this whole problem. One is that your target number of 23.10345 is a leeeeettle to round for my tastes. After all, you are adding thousands of items like "1/17", "1/11111" and so on, with infinite decimal representations, and it is highly unlikely that they add up to exactly 23.10345. If some specialist for numerical mathematics says so, fine -- but then I'd like to see the algorithm by which they arrived at this conclusion.
The other problem is related to the first and concerns the limited in-memory binary representation of your rational numbers. You might get by using BigDecimals, but I have my doubts.
So, basically, I suggest you reprogram the numerical algorithm instead of going for the brute force solution. Sorry.
Edit the third:
Out of curiosity, I wrote this in C++ to test my theories. It's run for 6 minutes now and is at about 14.5 (roughly 550 mio. iterations). We'll see.
Current version is
double total = 0;
long long current = 0, currPowerCeiling = 10, iteration = 0;
while( total < 23.01245 )
if( current >= currPowerCeiling )
currPowerCeiling *= 10;
for( long long power = currPowerCeiling; power >= 10; power = power / 10 )
if( ( current % power ) == 0 )
current = current + ( power / 10 );
total += ( 1.0 / current );
if( ! ( iteration % 1000000 ) )
std::cout << iteration / 1000000 << " Mio iterations: " << current << "\t -> " << total << std::endl;
std::cout << current << "\t" << total << std::endl;
currPowerCeiling (or however one might call this) by hand saves some
pow calculations each iteration. Every little bit helps -- but it still takes forever...
Edit the fourth:
Status is around 66,000 mio iterations, total is up to 16.2583, runtime is at around 13 hours. Not looking good, Bobby S. -- I suggest a more mathematical approach.