PORTB is probably not defined as an
int which means that when you take the address of
PORTB you won't get an
int *. If you are sure you're right and that you can use an
int * for
PORTB you can use a cast to tell the compiler that it doesn't need to worry. You can cast it like this:
ptr = (int*)&PORTB
Go to the definition of
PORTB and let us know what type it is.
I've written an explanation of why you SHOULDN'T USE MY ABOVE ANSWER, and by the time I got around to correcting it I see that @ouah has already posted a correct answer so I ask you to please use it instead of mine. For an explanation as to why, read my Edit 1 below.
My assumption was that you knew that
PORTB was an
int and that you're casting it from
void*. Thanks @H2CO3 for pointing out that it is in fact a
(*(volatile uint8_t *)(0x25)) which basically means that
PORTB is a
This being the case you should NEVER cast it to an
int! If this worked it means that your machine is probably little endian and you shouldn't rely on this.
To explain it properly let's set up a simple example:
We have this in memory:
Note: 7 is 0x07 in hex and 00000111 in binary and 11 is 0x0B in hex and 00001011 in binary
Now we have 2 pointers:
int* IntPointer; // int is either 2 or 4 bytes, we will assume it is 2 bytes.
// Let's set both to point to our fake memory address
BytePointer = (uint8_t*) 0x02;
IntPointer = (int*) 0x02;
// Now let's see what value each holds?
Value8 = *BytePointer;
Value16 = *IntPointer;
// Value8 will contain 0x07
// Value16 will contain 0x0B07 on a Little Endian machine
// Value16 will contain 0x070B on a Big Endian Machine
This example illustrates what happens when we read values from pointers, what about writing? Let's keep the same variables as before and write some values
*BytePointer = 5;
The memory would now look like this:
What about an
*IntPointer = 5;
int is two bytes it will alter two bytes:
// Little endian
// Big endian
So if you use
PORTB as an
int, every time you assign to it you are writing 2 bytes, one to the address of
PORTB and one straight after. I hope whatever is after isn't important... You shouldn't do this so you should use an
uint8_t* if you really want to use pointers.
But by the time I got around to explaining it all properly @ouah has already posted a correct answer. Please refer to it for how this should be done.