First of all, thank-you for this question it has an interesting wrinkle.
I ran your code with Eclipse/Microsoft C and did NOT get a segmentation error and it printed "asdf" as expected.
However, this does NOT mean or imply that you are not getting a segmentation fault. Your result implies an examination of how a compiler implements the two statements:
char *test3 = (char *) malloc(sizeof(char) * 5);
Allocates storage on the heap and sets the pointer, test3
, to point to that location.
The next statement also updates the same pointer.
test3 = "asdf";
However, in this case test3
points to the literal "asdf" where-ever that literal is stored. Some compilers generate a literal pool of strings and store them somewhere in the executable, as such for some compilers these literals cannot be modified.
So why would the compiler store a literal where it cannot be accessed? Doesn't make sense, hence the question: what C compiler are you using? And what version of C is it adhering to??
To work around what might be a compiler bug, and still point test3
at a literal, try?? (Again, C compilers do differ on what and how they implement language constructs.)
const char *literal = "asdf"; // also try without a const stmt
// other code here
test3 = literal;
Finally, in the second example the storage on the heap that was malloc
ed is being modified and is obviously addressable.
test3
- like for example try to ALTER the content oftest3
? Or do you mean that it crashes when you try to freetest3
?free()
call after the code in the first sample since you're freeing const-memory.