I'm referring a document for writing reusable firmware, and code came with the book uses pointer arrays to map memory.

I'm little confused about memory mapping

From this post, If an 8 bit memory is mapped at 0X123, then I can use following

uint8_t volatile * p_reg = (uint8_t volatile *) 0x1234;


#define PORT 0X1234
uint8_t volatile * p_reg = (uint8_t volatile *) PORT;

or in case of pointer array

#define PORT 0X1234
uint8_t volatile * const portsout[NUM_PORTS] =
        (uint8_t*)PORTB, ....,

I tried the code came with the book with atmega168 and this is what I had to do to map memory

uint8_t volatile * const portsout[NUM_PORTS] =
    (uint8_t*)&PORTB, (uint8_t*)&PORTC, (uint8_t*)&PORTD,

PORTB is defined in the header file "avr/io.h" as this

#define PORTB   _SFR_IO8 (0x05)

What I don't understand is the need of & in pointer array??

When I had compilation error when used lpc2148, I send a mail to the author and in his reply mail, he mentioned

Then it looks like your pointer arrays may not actually be pointers. For example:

(uint32_t*)&IOPIN0, (uint32_t*)&IOPIN1,

might actually be

(uint32_t*)IOPIN0, (uint32_t*)IOPIN1,

depending on how IOPIN0 and IOPIN1 are defined for your part

IOPIN0 macro for lpc2148 is

#define IOPIN0          (*((volatile unsigned long *) 0xE0028000))

I don't have much experience in C. I know if the macro refers to memory then I don't have to use & when defining pointer arrays. How to can I know if macro(eg: PORTB, IOPIN0) refers address or value??

  • This depends a lot on what SFR_IO8 is and what it's doing to the value 0x05. – Some programmer dude Oct 4 '18 at 12:27

When writing register maps, it is common to do so with a method that leaves the registers just as if they were variables:

#define REGISTER (*(volatile uint8_t*)0x1234)

where the left * dereferences the pointed-at address, meaning you can now use REGISTER just like any plain variable. This would be why you have to write &PORTB, which after macro expansion ends up as &*pointer. And this is guaranteed to be equivalent to pointer, by C (c17

The unary & operator yields the address of its operand. /--/
If the operand is the result of a unary * operator, neither that operator nor the & operator is evaluated and the result is as if both were omitted

As for if & is needed or not, it does indeed depend on how the registers are defined in the register map. Which should be available as a header file you can check, no matter system.

As a side note, your casts are fishy. (uint8_t*)&PORTB shouldn't be needed. This suggests some qualifier mismatch with volatile and const. In general, it is always ok to go from pointer to qualified-pointer, but not the other way around.

Based on your example with IOPIN0, the code should look something like this:

volatile uint32_t*const portsout [NUM_PORTS] =
  &IOPIN0, ...
  • Can you explain little bit about qualifier mismatch. May be with some small example – Athul Oct 5 '18 at 16:13
  • @Athul Suppose for example that the original pointer is defined as const volatile uint8_t* but you want to store it in an array of volatile uint8_t*. You would get incompatible pointers: you can always go from less qualifiers to more qualifiers, but not the other way around. These kind of errors often arise when there are bigger picture design mistakes: having failed to define properly in advance which pointers that point at hardware registers (volatile*), which that point to read-only data (const*) and which that are to be stored in ROM (*const). – Lundin Oct 8 '18 at 8:19
  • const volatile uint8_t* so if I've something like this then I can only store in in an const volatile uint8_t* Right?? Also volatile uint8_t* can be stored in const volatile uint8_t* Right??. I've a function like this void Adc_RegisterWrite(uint8_t const Address, uint8_t const Value) { uint8_t * const RegisterPointer = (uint8_t *) Address; *RegisterPointer = Value; } And the compiler gives me warning cast to pointer from integer of different size What is the proper way to cast here? – Athul Oct 10 '18 at 6:36
  • @Athul Yes and yes. So the casts aren't needed, which is why they are fishy. Your function here does however not make any sense, since those are plain uint8_t and not pointers. Perhaps you could post that part as a separate question (with a copy/paste of the actual code). – Lundin Oct 10 '18 at 7:55
  • The function takers a uint8_t type variable, and in function body this non pointer value is type casted in to pointer right?? What if Address variable passed when calling the function is actually an adress lik 0x28 or something. – Athul Oct 17 '18 at 11:53

The defines for C are something like this:

#if __AVR_ARCH__ >= 100
#    define __SFR_OFFSET 0x00
#    define __SFR_OFFSET 0x20

#define _SFR_IO8(io_addr) _MMIO_BYTE((io_addr) + __SFR_OFFSET)
#define _MMIO_BYTE(mem_addr) (*(volatile uint8_t *)(mem_addr))
#define PORTB   _SFR_IO8(0x05)

This means that PORTB expands to something like:

// presuming __AVR_ARCH__ >= 100
(*(volatile uint8_t *)(0x05 + 0x00))

which is already dereferenced, hence the need for the ampersand to get the address, i.e. you will have to write:

volatile uint8_t * p = &PORTB;
  • That's what I first thought. (uinit8_t*)&(_SFR_IO8 (0x05)) this works as it supposed to, but when I write (uinit8_t*)0x05, code is not working. Why?? As per your explanation it should, Right?? Or should I try (uinit8_t*)0x0C – Athul Oct 5 '18 at 16:12
  • @Athul: how exactly does your line look like? I.e. volatile uint8_t * p = (volatile uint8_t*)0x05; should work (if __AVR_ARCH__ is at least 100). Depending on your compiler, you should be able to get the preprocessed output (e.g. -E option in GCC). This will show you how the resulting code looks like after all macros have been substituted, just before compiling. – Groo Oct 9 '18 at 7:37
  • uint8_t volatile * const portsout[NUM_PORTS] = { (uint8_t*)0x05, (uint8_t*)&PORTC, (uint8_t*)&PORTD, }; I tried this way but didn't work but uint8_t volatile * const portsout[NUM_PORTS] = { (uint8_t*)&(_SFR_IO8 (0x05)), (uint8_t*)&PORTC, (uint8_t*)&PORTD, }; this worked – Athul Oct 9 '18 at 11:52
  • That's strange, I've tested it here and there are no warnings. You should definitely use -E and check how your macros are actually defined. – Groo Oct 9 '18 at 12:44

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