This issue comes because of a concept known as alignment. In many cases, it is desirable to have a number placed at an address that is a multiple of the size of the number in bytes (up to some maximum, often the pointer size of the platform). A variable so placed is said to be aligned to a n-byte boundary, where n is the number. The exact effects of this depend on the processor. Many processors perform math faster if the data is properly aligned. Some are even incapable of performing operations (sometimes even load operations) on unsuitably-aligned data - in order to work on such data, it has to be loaded into two registers and then a series of bit shifts and masks need to be performed to get a usable value, and then it needs to be put back. Think of it like storing half of the
int in each of two buckets and needing to put them together to use it, rather than simply storing the whole
int in one bucket.
In your case, the initial
bfType likely needs to be aligned to a 2-byte boundary, while
bfSize likely needs to be aligned to a 4-byte boundary. The compiler has to accomodate this by aligning the entire struct to 4 bytes, and leaving 2 unused bytes between
When compiling on the same system, however, the padding is probably going to be consistent, possibly depending on compiler options and the specific ABI used (generally, you're safe on the same platform unless you are trying to make things incompatible). You can freely make another struct with the same first 5 members, and they will take up 16 bytes of the other struct, in the exact same positions.
If you really need to avoid this behavior, you will have to check your compiler documentation. Most compilers offer an attribute or keyword to declare a variable as having no alignment, and another one to indicate that a struct should have no padding. But these are rarely necessary in the general course of things.