Is it preferable to dynamically allocate the 'inner' structs in a nested hierarchy? If the parent struct is dynamically allocated, does it even matter? Why/how does it matter? Just trying to build my understanding of implications of different, seemingly contradictory, ways memory is dealt with in a code base I'm dealing with.
For example, what are the benefits of:
struct Foo_type {
int i;
}; typedef struct Foo_type Foo;
struct Bar_type {
Foo f;
}; typedef struct Bar_type Bar;
int main() {
Bar* b = malloc(sizeof(Bar));
/* yada yada yada */
free(b);
return 0;
}
As opposed to:
struct Foo_type {
int i;
}; typedef struct Foo_type Foo;
struct Bar_type {
Foo* f;
}; typedef struct Bar_type Bar;
int main() {
Bar* b = malloc(sizeof(Bar));
b->f = malloc(sizeof(Foo));
/* yada yada yada */
free(b->f);
free(b);
return 0;
}
Are they equivalent/different?
typedef struct { } Foo;
is perhaps the most common style used. No need for struct tags.