There is a problem with your example - actually with what you are trying to do (since you don't want the shifts).
See, it is a little known fact, but you're not allowed to switch pointer types in this manner
specifically, code like this is illegal:
type1 *vec1=...;
type2 *vec2=(type2*)vec1;
// do stuff with *vec2
The only case where this is legal is if type2
is char
(or unsigned char
or const char
etc.), but if type2
is any other type (uint32_t
in your example) it's against the standard and may introduce bugs to your code if you compile with -O2
or -O3
optimization.
This is called the "strict-aliasing rule" and it allows compilers to assume that pointers of different types never point to related points in memory - so that if you change the memory of one pointer, the compiler doesn't have to reload all other pointers.
It's hard for compilers to find instances of breaking this rule, unless you make it painfully clear to it. For example, if you change your code to do this:
uint32_t v4full=*((uint32_t*)v4);
and compile using -O3 -Wall
(I'm using gcc) you'll get the warning:
warning: dereferencing type-punned pointer will break strict-aliasing rules [-Wstrict-aliasing]
So you can't avoid using the shifts.
Note: it will work on lower optimization settings, and it will also work in higher settings if you never change the info pointer to by v4
and v4_full
. It will work, but it's still a bug and still "against the rules".
v4
asuint8_t v4[4]
and you want to get that as a single 32 bit number?