None of the answers seem to deal with **why** `17.32`

acted different.

### 1. Why it occurred

The difference in behaviour you see between `17.32`

and `17.33 & 17.31`

is due to IEEE-754 **Rounding** rules.

Rounding rule applied: from, The Java™ Virtual
Machine Specification *§2.8.1*

The rounding operations of the Java virtual machine always use IEEE
754 round to nearest mode. Inexact results are rounded to the nearest
representable value, with ties going to the value with a zero
least-significant bit. This is the IEEE 754 default mode. The Java virtual
machine does not give any means to change the floating-point rounding
mode

### 2. Your case:

*Double is*: (1 sign-bit + 11 exponent-bits + 52 fraction-bits = 64bits). *Internal representation after rounding* below:

```
1 [63] 11 [62-52] 52 [51-00]
Sign Exponent Fraction
17.31 --> 0 (+) 10000000011 (+4) 1.0001010011110101110000101000111101011100001010001111
17.32 --> 0 (+) 10000000011 (+4) 1.0001010100011110101110000101000111101011100001010010 //rounded up
17.33 --> 0 (+) 10000000011 (+4) 1.0001010101000111101011100001010001111010111000010100
```

### 3. Internal representation (Proof):

17.31: (Mantissa comparison)

```
Actual: 1.00010100111101011100001010001111010111000010100011110...
Internal: 1.0001010011110101110000101000111101011100001010001111
```

17.32: (Mantissa comparison)

```
Actual: 1.00010101000111101011100001010001111010111000010100011...
Internal: 1.0001010100011110101110000101000111101011100001010010 //round-up!
```

17.33: (Mantissa comparison)

```
Actual: 1.00010101010001111010111000010100011110101110000101000...
Internal: 1.0001010101000111101011100001010001111010111000010100
```

### 4. Conversion back-to-decimal:

```
17.31 -> 17.309999999999998721023075631819665431976318359375...
17.32 -> 17.32000000000000028421709430404007434844970703125... //(was rounded up)
17.33 -> 17.3299999999999982946974341757595539093017578125...
```

(**IEEE-754 Analysis Tool**)

### 5. Cast to long

**EDIT:** There is a factor more at play at your multiplication step as @Jeppe Stig Nielsen said. The result of the **FP** multiplication (**Reference**) step does its own rounding-towards-nearest.
This changes which results are as expected and which aren't, but the reason is still exactly the same as stated above.

Finally, due to the cast `(long)`

, truncation occurs, and leaves you with the results you see. `(1730, 1732, 1732)`

Narrowing Primitive Conversion : The Java™ Language Specification *§5.1.3*

If the floating-point number is not an infinity, the floating-point
value is rounded to an integer value V, rounding toward zero using
IEEE 754 round-toward-zero mode

this damn docwhich is long enought to be book in itself. :) – Anirudh Ramanathan Nov 20 '12 at 22:42