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By default I'm getting 4 digit precision and when I use setprecision(6) the last digits of the variable come in random like 1/3=0.333369.

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It looks like you are limited by the float type itself, why not use double? But even this type has limitations. –  fge Jan 2 '13 at 10:45
Give a complete example –  Johan Lundberg Jan 2 '13 at 10:48
@Potatoswatter IEEE 754 floats don't work like that ;) –  fge Jan 2 '13 at 10:49
@fge (comment deleted because the content was moved to the answer) yes, they do, 1/3.f will produce the closest float to 1/3 and the error will be less than one part in ten million. –  Potatoswatter Jan 2 '13 at 10:52
1/3 is an integer division with result 0. To get a float with the correct value, at least one operand must be float, for example float x=1.f/3.f;. This followed by std::cout<<x; will typically print out 0.333333 (provided std::cout is its original state: 6 digits are the default). –  Walter Jan 2 '13 at 12:17
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float has about 7 decimal digits of precision, due to its use of 24 binary digits to store the digits of the number. As far as output is concerned, setprecision(6) does everything you could ask for.

It's likely you are losing precision, for example by subtracting two numbers with similar values and printing the result. The quick solution is to change the computations to use double or long double. But to make any guarantees about the precision of a floating-point result, you need to understand how FP works and analyze how your formula is getting computed.

See What Every Computer Scientist Should Know About Floating-Point Arithmetic.

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