The following is a list of the C order of operations from highest precedence to lowest.

Operators within the same group have equal precedence and evaluate left-to-right
or right-to-left as indicated.

### Left-to-Right

`++`

post increment`--`

post decrement`()`

function call`[]`

array subscripting`.`

structure/union member selection`->`

element selection via pointer

#### Examples

```
int x[0];
x[0] = 1;
x[1] = 2;
int * i = x;
int y;
y = *i++ //y is 1 and i points to x[1]
(*i)++ //now x[1] is 3 and i points to x[1]
```

```
char x[4]; //4 bytes, one 32-bit word
(uint32_t*)x[0]; //returns a char value 0 to 0xff cast as a pointer
((uint32_t*)x)[0]; //returns an 32-bit word
```

### Right-to-Left

`++`

pre increment`--`

pre decrement`+`

unary plus`-`

unary minus`!`

logical not`~`

bitwise not`(<type>)`

type casting`*`

dereference`&`

address of`sizeof()`

sizeof type or variable

#### Examples

```
struct abc {
int a;
int b;
short c;
};
struct abc x;
struct abc * y = &x;
&x.b
//is the same as
&(x.b)
&y->b;
//is the same as because -> is stronger than &
&(y->b);
(int*)&x[0];
//this is an error -- could use
((int*)&x)[0];
```

### Left-to-Right

`*`

multiplication`/`

division`%`

modulo

#### Examples

```
a + b * x + y
//is the same as
a + (b * x) + y
```

### Left-to-Right

`+`

addition`-`

subtraction

#### Examples

```
c >> a * b + x * y
//is the same as
c >> ((a * b) + (x * y))
a + b * x + y
//is the same as
a + (b * x) + y
```

### Left-to-Right

`>>`

bitwise shift right`<<`

bitwise shift left

#### Examples

```
a + b >> x + y
//is the same as
(a + b) >> (x + y)
```

### Left-to-Right

`<`

less than`<=`

less than or equal to`>`

greater than`>=`

greater than or equal to

```
if( a < b == x > y ){}
//is equivalent to
if( (a < b) == (x > y)){}
```

### Left-to-Right

`!=`

not equal to`==`

equal to

### Left-to-Right

`&`

bitwise and

```
x & 0x2 == 0
//is equivalent to
x & (0x2 == 0)
//fix it using ()
(x & 0x2) == 0
a + b & 0x02 == x & 0x02 + y
//is the same as -- when in doubt use ()
(a + b) & (0x02 == x) & (0x02 + y)
```

### Left-to-Right

`^`

bitwise xor

### Left-to-Right

`|`

bitwise or

#### Examples

```
a | b && x | y
//is the same as
(a | b) && (x | y)
```

### Left-to-Right

`&&`

logical and

#### Examples

```
a == b && x == y
//is the same as
(a == b) && (x == y)
a && b == x && y
//is the same as
a && (b == x) && y
a && b || x && y
//is the same as
(a && b) || (x && y)
a && b | x && y
//is the same as
a && (b | x) && y
```

### Left-to-Right

`||`

logical or

#### Examples

```
a || b && x || y
//is the same as
a || (b && x) || y
```

### Left-to-Right

`?`

: ternary operator

```
a = x > y ? x : y;
//is the same as
if( x > y ){
a = x;
} else {
a = y;
}
a = x > y ? x >>= z : y;
//is the same as
x >>= z;
if( x > y ){
a = x;
} else {
a = y;
}
```

### Right-to-Left

`=`

assign`+=`

assign sum`-=`

assign difference`\*=`

assign product`/=`

assign quotient`%=`

assign remainder`<<=`

assign shift left`>>=`

assign shift right`&=`

assign and`^=`

assign xor`|=`

assign or

#### Examples

```
a = b == c
//is the same as
a = (b == c)
a = b += c
//is the same as (right to left evaluation)
a = (b += c)
//or
b += c;
a = b;
```

### Left-to-Right

`,`

comma (evaluates to the value of the second argument)

#### Examples

```
//avoid using comma's as an operator :)
```