(int)(33.46639 * 1000000)
returns 33466389
Why does this happen?
Why does this happen? 


Floating point math isn't perfect. What every programmer should know about it.



Double precision is not exact, so internally 33.46639 is actually stored as 33.466389 Edit: As Richard said, it's floating point data, (stored in binary in a finite set of bits) so it's not exactly that) .... 


It was New Years' Eve at the end of 1994. Andy Grove, CEO of Intel, was coming off a great year, what with the Pentium processor coming out and being a big hit. So, he walked into a bar and ordered a double shot of Johnnie Walker Green Label. The bartender served it up and said, "that will be $20, sir." Grove put a twenty dollar bill on the counter, looked at it for a moment, and said, "keep the change." 


The reason is that 33.46639 will be represented as something slightly less than that number. Multiplying by 1000000 will give you 33466389.99999999. Typecasting using (int) will then just return the integer part (33466389). If you want the "right" number, try round() before type casting. 


If you're asking why it doesn't become If you replace the 


Because 33.46639 can't be expressed exactly in a finite number of binary digits. The actual result of 33.46639 * 1000000 is 33466389.9999999962747097015380859375. The cast truncates it to 33466389. 


The reason you got a different result is the fact that you used a 'cast' (int)(33.46639 * 1000000) returns 33466389 ^^^^^ to cast the result to a type of 'int'... which either rounded up or down the integral type when multipled together and then converted to 'int'.... do not rely on floating point to be accurate enough....Skeet posted an excellent introduction on his site here and here... 

