Could someone please exactly why the following
#defines have been defined? What value do they have, compared to the originals?
typedef char CHAR; #define CONST const typedef float FLOAT; typedef unsigned __int64 DWORD64; //A 64-bit "double"-word?! typedef ULONGLONG DWORDLONG; //What's the difference? typedef ULONG_PTR DWORD_PTR; //What's the difference? typedef long LONG_PTR; //Wasn't INT_PTR enough? typedef signed int LONG32; //Why not "signed long"? typedef unsigned int UINT; //Wait.. UINT is "int", "LONG" is also int? typedef unsigned long ULONG; //ULONG is "long", but LONG32 is "int"? what? typedef void *PVOID; //Why not just say void*? typedef void *LPVOID; //What?! typedef ULONG_PTR SIZE_T; //Why not just size_t?
And, best of all:
#define VOID void //Assuming this is useful (?), why not typedef?
What's the reasoning behind these? Is it some sort of abstraction I'm not understanding?
For those people mentioning compiler cross-compatilibity:
My question is not about why they didn't use
unsigned long long instead of, say,
DWORD64. My question is about why would anyone use
DWORD64 instead of
ULONG64 (or vice-versa)? Aren't both of those
typedefed to be 64 bits wide?
Or, as another example: Even in a "hypothetical" compiler that was meant to deceive us in every respect, what would be the difference between
DWORD_PTR? Aren't those all abstract data types just meaning the same thing --
However, I am asking why they used
ULONGLONG instead of
long long -- is there any potential difference in meaning, covered by neither
long long nor