If you write it just like that it will probably work, so I imagine you've simplified it for the question. (And keeping the question simple and concise is normally a very good thing.)

But in this case I imagine one result is a calculation and one result is a constant.

This violates a cardinal rule of floating point programming: *Never do equality comparisons.*

The reasons for this are a bit subtle^{1} but what's important to remember is that they usually don't work (except, ironically, for integral values) and that the alternative is a fuzzy comparison along the lines of:

```
if abs(a - y) < epsilon
```

_{1. One of the major problems involves the way we write numbers in programs. We write them as decimal strings, and as a result most of the fractions we write do not have exact machine representations. They don't have exact finite forms because they repeat in binary. Every machine fraction is a rational number of the form x/2n. Now, the constants are decimal and every decimal constant is a rational number of the form x/(2n * 5m). The 5m numbers are odd, so there isn't a 2n factor for any of them. Only when m == 0 is there a finite representation in both the binary and decimal expansion of the fraction. So, 1.25 is exact because it's 5/(22*50) but 0.1 is not because it's 1/(20*51). In fact, in the series 1.01 .. 1.99 only 3 of the numbers are exactly representable: 1.25, 1.50, and 1.75.}

`a and b are same`

. Is this your full code? – Pekka 웃 Jun 30 '10 at 11:55`floating-point`

tag description? stackoverflow.com/tags/floating-point/info That's a behavior you'd likely encounter in any programming language, when using floating-point numbers. See e.g. stackoverflow.com/questions/588004/is-javascripts-math-broken – Piskvor Mar 29 '12 at 20:37