It is a bitwise "and" operation taking the result of `SDL_GetMouseState(NULL, NULL)`

and "anding" it to the result of `SDL_BUTTON(1)`

.

That is, the result is an integral value where all of the bits that are 1 in both answers will be 1 in the final result.

Effectively, this is checking to see if the SDL_BUTTON(1) is currently pressed. They do this rather than an == comparison because this will evaluate to true when button 1 is pressed even in combination with other simultaneous mouse presses.

*Bitwise AND clarification*

Say I have the following: `int foo = 25;`

I can view this in several different bases. The normal base is 10 (decimal); the base in which we look at numbers ordinarily in everyday life. In base 10, this number is `25`

. I can also look at the number in base 2 (binary). In binary, the number is expressed as `11001`

. That number can be interpreted as having several bits "true" (1) and several bits "false" (0). The "true" bits all get a fixed value associated with their place in the column. Each column has a value 2^i, where i is the index of the column. Columns are numbered from right to left with the right-most column being number 0.

```
Truth value: 1 1 0 0 1
Column value: 16 8 4 2 1
```

We take the column value for all columns that are true and add them together to get the value. In this case, we will add 1, 8 and 16 together because they are in columns that are true. 1 + 8 + 16 = 25.

We can perform other operations on binary numbers as well, such as "bitwise and". In C, there are two types of and statements. Logical and and bitwise and. A logical and takes the form:

```
if (a && b) { // two & together is logical-and
// do something
}
```

The statement `// do something`

is executed if `a`

holds a value that can be interpreted as `true`

*and* `b`

holds a value that can be interpreted as `true`

; for integers, all non-zero numbers are `true`

. If either are false, the statement is not executed.

Bitwise and is similar, but operates on a bit level. It takes two values and compares them one bit at a time to determine an output value. If the bit is true in both values, then the bit in the output is also true. If the bit is false in either value, then the bit in the output is false.

```
int a = 25; // 011001
int b = 13; // 001101
int c = a & b; // 001001 -- or 1 + 8 == 9
if (c) {
// do something if c is non-zero
}
```

Your code above is taking the bitwise and of two values and then interpreting that as `true`

or `false`

. I don't know the exact values used in SDL, but let's say that `SDL_BUTTON(1)`

as a value of `4`

and `SDL_BUTTON(2)`

has a value of `8`

. `SDL_GetMouseState(NULL, NULL)`

will return an integer where each bit represents a flag. If `SDL_GetMouseState(NULL, NULL)`

returns `4`

(mouse button 1 is down), then `4 & 4`

will be 4 (`0100 & 0100 == 0100`

). If it returns `8`

(mouse button 2 is down), then `8 & 4`

will be 0 (`01000 & 00100 == 00000`

; there are no columns with a `1`

in common). If it returns 12 (mouse buttons 1 and 2 are down), then `12 & 4`

will be 4 (`01100 & 00100 == 00100`

).

If mouse button 1 is pressed, then the result of the `&`

will be non-zero, i.e. `true`

. If mouse button 1 is pressed *and* mouse button 2 is pressed, the result is *still* `true`

.

`&`

(bitmask) being performed on the returns of both of those function calls. – TheZ Aug 13 '12 at 16:11