In a microcontroller code, I am using a library provided by the producer where there are many constants defined. I'm trying to give an error if there's a mismatch between some of my constants (shared with components outside the microcontroller, with
git-subtree) and the microcontroller constants.
For example, the library defines:
#ifdef SOME_PARTICULAR_MODEL #define FLASH_BLOCK_SIZE ((uint8_t)64) /* else, other models */ #endif
And somewhere, in a header shared between the microcontroller code and some code compiled on the PC, I have for example:
#define MYPROG_BLOCK_SIZE 64
And to make sure these constants match, in the microcontroller code, where both constants exist, I have:
#if MYPROG_BLOCK_SIZE != FLASH_BLOCK_SIZE #error "mismatch between actual block size and defined block size" #endif
This is to make sure if the code is ever ported to a bigger microcontroller, the shared header would also be updated.
The problem is that this gets reduced to:
#if 64 != ((uint8_t)64)
which I'm not sure if is valid C, but nonetheless makes the compiler choke up. Testing, I found out that the problem is not that
uint8_t is a typedef and it still chokes up with a cast to
int for example.
Is there a way to remove the
(uint8_t) part from a value defined as
((uint8_t)64)? If not, is there any way to change it so the expression turns into one without a cast?
I thought about defining
uint8_t as something and undefining it after the
#if, but I can't figure out how I can avoid the cast nature of
(Y)X and turn it into an arithmetic expression.