# Float cast reduces value by 1

When casting (float)33554329L the result is 33554328. if the number is then cast back to a long the value stays at 33554328, has any one an explanation for this.

Using VS2005 in C++ [non managed]

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32 bit float has 23 bits for the mantissa which are 8,388,608 distinct values. This means that the accuracy is around 7 significant decimal digits. Your number has 8 decimal significant digits so you see the loss of accuracy in the one last significant digit.

Double precision are 64 bits and have 52 bit for the mantissa which is 4,503,599,627,370,496 (a 16 digit number) and thus have roughly 15-16 decimal digit accuracy.

A `decimal` type is something that potentially allows you to save any number of any length in any accuracy. C# has them but unfortunately they are not a primitive type in C++. You can probably find some 3rd party library that implements them in C++.

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Actually, it is 24 bits due to the hidden bit: 1 for normalized numbers, 0 for unnormalized numbers. –  FredOverflow Feb 16 '11 at 9:55

"What every computer scientist should know about floating point"

http://www.validlab.com/goldberg/paper.pdf

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Floating point arithmetic has claimed another victim! It seems as being bitten by it is some rite-of-passage for every programmer. :) –  Adam Paynter Feb 16 '11 at 9:49

Floats have very low precision for high (3 billion +) numbers.

Float's precision is the best in range 0-1. The further you go from zero, the lesser is the precision. And at around three billion, it is not even precise enough to hold every integer (so it rounds to the closest value it can represent).

Solution: Use double (or decimal representation).

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The OP's number is only about 33 million. –  Mephane Feb 16 '11 at 9:40