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Are there any platforms (if so, which?) where something like the following can be done, provided that a runtime check confirms that there is no more than 4GB of virtual memory (or RAM) available?

// 1) cast pointer to void pointer
// 2) cast void pointer to uint64 type
// 3) set most significant bytes of uint64 type to 0 (might be wrong choice)
// 4) store as uint32 type
uint32_t trimmed_pointer = (uint64_t) (void *) pointer & 0x00000000ffffffff;

and to get back the original pointer:

same_as_before_t *pointer = (void *) (uint64_t) trimmed_pointer

I realize this would probably be a terrible hack and entirely dependent on how the OS's memory manager implements virtual memory (as well as the compiler?), so I'm asking this purely out of curiosity.

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closed as not constructive by David Heffernan, razlebe, Mohammad Ali Baydoun, Sindre Sorhus, Mihai Maruseac Jun 25 '13 at 10:44

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Well, if the OS decides that virtual memory always goes to the lower doubleword, then this works, but honestly I don't know ow any platform that guarantees this. –  user529758 Jun 25 '13 at 6:00
I can tell you that Mac OS X won't meet your requirements. Stack variables are placed at an address with a number of the high-order 32-bits set (e.g. 0x7FFF_5468_74DC). (Example code: #include <stdio.h> #include <inttypes.h> int main(void) { int x; printf("0x%.8" PRIXPTR "\n", (uintptr_t)&x); return 0; } –  Jonathan Leffler Jun 25 '13 at 6:02
Yes, this would probably "work" on any platform that meets those constraints... –  Oliver Charlesworth Jun 25 '13 at 6:07
@JonathanLeffler Interesting. I might try to find out what 64to32 bitmask would work on what platform. –  Will Jun 25 '13 at 6:11
What is the motivation behind this question? –  David Heffernan Jun 25 '13 at 7:34

2 Answers 2

In order to aid porting crufty, old 32-bit programs that assumed that pointers could be safely stored in 32-bit integer types, Windows still respects the IMAGE_FILE_LARGE_ADDRESS_AWARE flag in the PE header for 64-bit programs.

If that flag isn't set in the program's header, the system will not allocate an address above 2GB to the process.

By default for 64-bit builds, the linker sets the flag (ie., by default the address space for a 64-bit program will not be limited). If you want to indicate that your 64-bit program should not be given any address space above 2GB, pass the /largeaddressaware:no option to the linker when the program is built. See http://msdn.microsoft.com/en-us/library/windows/desktop/aa384271.aspx for details.

Keep in mind that this feature is intended to help port programs that don't handle pointers properly - not to enable you to write such programs. Also keep in mind the important fact that virtual addresses have little to do with physical addresses (in other words, even if you have less than 4GB of RAM, the system could still use virtual addresses in the terabyte range).

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This would work on a 64-bit Windows if the program is not marked as Large-Address Aware (or rather, is explicitly marked as not Aware), since it's explicitly what Windows does in that case, with just one caveat: If I remember correctly, pointers should be size-extended when converting back to 64 bits.

Not that it would matter anyway, since all "negative" pointers are accessible only to kernel code and should not be visible in userspace code (the /LARGEADDRESSAWARE:NO flag also protects the program from the /3GB kernel switch which would make this affirmation false).

Of course, it's only read when starting an EXE file: If an Aware EXE loads a non-Aware DLL, boom!

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No, a 64 bit process uses 64 bit pointers. Large address aware only has meaning for a 32 bit process. –  David Heffernan Jun 25 '13 at 7:33
Well, I beg your pardon. I was mistaken. –  David Heffernan Jun 25 '13 at 7:49
@David, the link in Michael Burr's answer seems to indicate that you can disable largeaddressaware for 64-bit processes. This would result in Windows returning you only pointers smaller than 4GB. –  Patrick Jun 25 '13 at 7:50

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