I've been trying to learn everything I can about micro-controllers lately. Since this is self-study, it's taken me a while to learn how the things work at the bare metal. Long story short, I don't want to use the AVR libraries in my C code; I want to access the registers specifically through their addresses using pointers in C. I've searched everywhere online, looked inside the AVR header files, and read a book. If someone could help me out that would be wonderful.

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    so, what's wrong with PORTB = 0xff;? If you don't like the name PORTB (for some obscure reason), then you can just go to <avr/io.h> and look at the address it's defined to, then write *(volatile uint8_t *)0xbadf00d = 0xff; Jul 28 '14 at 4:42
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    Somewhat less heinously, there is char * portbptr = & PORTB;. Jul 28 '14 at 4:44
  • With which compiler? You should be able to access registers with GCC. Notably using GCC extensions to C Jul 28 '14 at 4:45
  • Holandaise, could you clarify if you already know how to access the register directly doing something normal like PORTB = 0xFF? Do you specifically want to use pointers or do just want to write to the register in any way? Jul 28 '14 at 4:54
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    If you look into your header files, you'll see that PORTB and similars are just macros, like #define ADMUX (*(unsigned char *) 0x7c)
    – vsz
    Jul 28 '14 at 4:57

You can cast from an integer to a pointer. It's just a normal cast expression.

volatile char * const port_a = (volatile char *) 0x1B;

Many compilers provide extensions to instruct the linker to place an object at a specific address:

volatile char port_a @ 0x1B; // Or something like this

The advantage is that you don't introduce a global variable to represent the pointer, but it might not do the right thing for a hardware register. You need to read carefully your compiler's manual for your specific platform.

The official AVR headers probably contain something more like this:

#define PORTA (* (volatile char *) 0x1B)

This avoids the global variable and the linker hack, but many also consider using the preprocessor also to be hacking.

The only viable solution for production code is to use the official headers. Anything else is only instructional.

  • Also, you can write something like &PORTB instead of 0x1B which makes the code more portable and easier to understand. Jul 28 '14 at 4:53
  • @DavidGrayson Yes, I said that in the question comments. But, I'm not sure it really scratches the OP's itch. Jul 28 '14 at 4:54
  • Care must be taken to only use PORTs and other specific register (timers, etc.) in this way. Using a general purpose register might lead to nasty surprises if the compiler automatically assigned another variable to it, or uses it as a local temporary storage.
    – vsz
    Jul 28 '14 at 4:54
  • @vsz CPU registers are usually not memory-mapped. "Register" in this sense refers to flip-flops in a peripheral device which are accessible via the data bus. Jul 28 '14 at 5:01
  • @Potatoswatter : No, in AVR (at least in their ATtiny and ATmega series) all CPU registers are memory-mapped. avr-tutorials.com/sites/default/files/Memory%20Map%20Small.jpg
    – vsz
    Jul 28 '14 at 5:08

It pretty much depends on the compiler, some use a stricter interpretation of the register keyword.

For example,

unsigned char a @0x0001; will put the variable into the specific register.

Otherwise, you could just assign numeric values to your pointers, it's a big no-no if your program runs in an OS, but if you have a guaranteed physical memory which you know the boundaries of, it might be acceptable. However, care must be taken that the compiler does not use that register automatically, which is a hard thing to make sure unless you write most of your code in Assembly.

So, the variable declaration method (if your compiler supports it) is the better choice, as it guarantees that no other variable will take up its place.

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    That's not portable at all. At least mention which compiler that's for. Jul 28 '14 at 4:45
  • CodeVision allows strict variable declaration unto a general purpose register, and guarantees that the register will not be used for other purposes. It still should only be used if you are really sure you know what you are doing, as you take away a general purpose register from the compiler, who might be able to use it in a much more optimal way.
    – vsz
    Jul 28 '14 at 4:51
  • Then the semantic is reserving a register, not just accessing it. Probably the allocation is done by the linker, like my answer mentions. Jul 28 '14 at 12:41

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