# round to least significant digit using int function

I don't have a rounding function in my programming language. I want to take the result of a floating point operation, find the least-significant digit and round up based on that. What I've found so far on the net are functions that just add .5, which seems pretty inaccurate.

first: how do I find the least significant digit? second: once I have that digit, I need to determine if it is > 5 or less than 5 third: if it is greater than or equal to 5, then I need to check the next digit and increment it if it is greater than 5, till I get to the decimal point and use the same determination on the number (but as a whole number, so if it is 65.444445 then it should be 66 I think) to the right of the decimal place. At least this is what seems to make sense, but maybe I'm overcomplicating this?

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First: You and the problem at hand decide how many significant digits there are. The least significant digit is simply the last digit that's a significant digit.

Second: Since you know how to round to the nearest integer, then you can round to any significant digit by multiplying the number by a power of 10 before, and multiplying by the inverse power of 10 after.

If, for example, you have decided that there should be 4 significant digits, then the least significant digit is the fourth digit.

The number 1234567890 (10 digits) may be rounded to that digit by:

• multiplying by 10^-6, giving 1234.567890
• doing the integer round that you've discovered, giving 1235
• multiplying by 10^6, giving 1235000000.

Third: You're overcomplicating this. 65.444445 is closer to 65 than it is to 66. It's less than 65.5, which is the midpoint between 65 and 66.

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