Actually, if your code does nothing, is it even fair that the compiler still creates an executable? ;-)
Well, on Windows any executable would still have a size, although it can be reasonable small. With the old MS-DOS system, a complete do-nothing application would just be a couple of bytes. (I think four bytes to use the 21h interrupt to close the program.) Then again, those application were loaded straight into memory.
When the EXE format became more popular, things changed a bit. Now executables had additional information about the process itself, like the relocation of code and data segments plus some checksums and version information.
The introduction of Windows added another header to the format, to tell MS-DOS that it couldn't execute the executable since it needed to run under Windows. And Windows would recognize it without problems.
Of course, the executable format was also extended with resource information, like bitmaps, icons and dialog forms and much, much more.
A do-nothing executable would nowadays be between 4 and 8 kilobytes in size, depending on your compiler and every method you've used to reduce it's size. It would be at a size where UPX would actually result in bigger executables! Additional bytes in your executable might be added because you added certain libraries to your code. Especially libraries with initialized data or resources will add a considerable amount of bytes. Adding debug information also increases the size of the executable.
But while this all makes a nice exercise at reducing size, you could wonder if it's practical to just continue to worry about bloatedness of applications. Modern hard disks will divide files up in segments and for really large disks, the difference would be very small. However, the amount of trouble it would take to keep the size as small as possible will slow down development speed, unless you're an expert developer whom is used to these optimizations. These kinds of optimizations don't tend to improve performance and considering the average disk space of most systems, I don't see why it would be practical. (Still, I do optimize my own code in similar ways but then again, I am experienced with these optimizations.)
Interested in the EXE header
? It's starts with the letters MZ, for "Mark Zbikowski". The first part is the old-style MS-DOS header for executables and is used as a stub to MS-DOS saying the program is not
an MS-DOS executable. (In the binary, you can find the text 'This program cannot be run in DOS mode.' which is basically all it does: displaying that message. Next is the PE header, which Windows will recognise and use instead of the MS-DOS header. It starts with the letters PE for Portable Executable
. After this second header there will be the executable itself, divided in several blocks of code and data. The header contains special reallocation tables which tells the OS where to load a specific block. And if you can keep this to a limit, the final executable can be smaller than 4 KB, but 90% would then be header information and no functionality.