**m** will be represented in memory as a binary number, in other words: a series of bits.
The value **1** will also be represented as a series of bits.

For example (I have chosen 8 bit length for simplicity):

```
m = 00101101
1 = 00000001
```

Performing a bitwise operation on **m** will perform the operation you specify, in this case **&** (AND) on each bit at the same position on each binary number on either side of the **&** symbol.

*i.e. Bit 1 of result = Bit 1 of m & Bit 1 of the value 1.
Bit 2 of result = Bit 2 of m & Bit 2 of the value 1 etc...*

So for our example:

```
00101101
& 00000001
---------
00000001
```

Assuming **m** is an integer, the bitwise operation will return an integer. The **if** statement will check if the result is true, and since it is an integer it will be interpreted as true if non-zero.

The result is not zero hence it will return true in our example.

So:
By **AND**-ing an integer with 1 you will end up returning true in your code for odd numbers only, since bit 1 is always 1 for odd numbers.

`m`

? – ComicSansMS Sep 9 '13 at 8:27`m == 2`

they evaluate differently. – David M Sep 9 '13 at 8:28