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I need to allocate more than 4GB memory in my C program (running on Windows - 64 bit).
Obviously using just malloc does not solve the problem.

I've read some of the previous posts in this manner, and it seems like VirtualAlloc may solve my issue.
I tried to use it, and I don't understand all the parameters associated with this function. I think I need to define exactly the address in which the memory should be allocated, but I don't know how to do it.
Is there a simple information about it, or a simple example that I can use?

I also do not need to allocate all in one chunk, so it might be easier. Any alternative way to allocate more than 4gb memory will also be accepted.

Thanks.

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    "Obviously using just "malloc" does not solve the problem." -- why not ? If it's a 64 bit program then you should be able to malloc way more than 4 GB without any problems. You're not doing something silly, like using an int expression to calculate the size passed to malloc are you ? – Paul R Jun 23 '16 at 9:58
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    OS usage notwithstanding, you're compiling to a 64bit program target, right? – WhozCraig Jun 23 '16 at 9:58
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    hey, uhm ... just wanted to throw this in because nobody else will : "I need to allocate more than 4GB memory" -- you're doing it wrong. Just sayian. – specializt Jun 23 '16 at 9:58
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    If you read the documentation of VirtualAlloc, the first parameter is optional. Just pass in NULL and let Windows decide where to allocate memory – coffee_addict Jun 23 '16 at 10:04
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    @specializt: What if OP has do deal with a single coherent dataset several GiBs large? I have to deal with datasets of this kind quite regularly (ultra highspeed volumetric OCT data; 6GB per second, in some cases a single uninterrupted, continuous scan amounts to over 20GiB of raw interferometer fringe sample data). – datenwolf Jun 23 '16 at 10:05
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Contrary to your statement, malloc() will solve the problem, assuming you are using an implementation (which includes the compiler and library) that can produce a 64-bit executable, and have configured it to do so (i.e. to build a 64-bit target). Some toolchains are capable of building 64-bit targets but by default (e.g. as used in an associated IDE) will only produce a 32-bit executable.

If you are building a 32-bit target (i.e. producing a 32-bit executable) then, yes, malloc() will be limited to 4GB. A 32-bit executable can be executed on a 64-bit system (assuming an operating system which permits that). However, the program's use of malloc() will still be limited to 4GB in that case.

Which means you need to ensure you have a compiler that can build 64 bit programs AND use it to build a 64-bit target.

Of course, another question you should ask is whether you really need to allocate more than 4GB in a single chunk. While there are circumstances where that is appropriate, more often than not, a program which needs to do that is a sign of poor or lazy design.

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  • A 32-bit executable will be limited to 2GB (or 3, 3.5GB depending on system). It can't use 4GB except on Sparc Solaris where kernel and user space are separate – phuclv Jun 23 '16 at 15:44
  • Sparc solaris is not the only OS which allows a 32-bit application to allocate 4GB. In any event, this question is tagged C - in which case the maximum a 32-bit application can address is 4GB. Whether an OS allows allocation of such an amount is another topic entirely - even on an OS which can allow allocation of such an amount by a 32-bit program, quotas or other administrative settings may disallow it. – Peter Jun 24 '16 at 11:33
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Obviously using just malloc does not solve the problem.

Why? size_t should be large enough to cover all the address space your program has accessible, malloc takes a size_t and there are no standard reasons for why it shouldn't work.

I can unfortunately not try this on a Windows machine right now, but on a Linux machine this program works just fine (to show that there are no limitations in C that would prevent you from doing this):

#include <stdlib.h>
#include <stdio.h>
#include <string.h>

int
main(int argc, char **argv)
{
    size_t sz = 40000000000;
    char *a = malloc(sz);

    memset(a, 'a', sz);

    printf("%.4s", &a[sz-5]);

    return 0;
}

I allocate 40GB, fill it with the letter 'a' and then access it just to see that things worked. And they do. (Warning: don't run this program on a machine that doesn't have this much memory, systems can get quite unhappy when you overcommit memory).

Does this program work for you (size adjusted to what your hardware can do, obviously)? If yes, then you might have a problem with prototypes or data types for the size rather than a problem with malloc.

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  • That will work just fine for about everybody, allocating 1345294336 bytes isn't that difficult :) Integer overflow is a bitch. – Hans Passant Jun 23 '16 at 12:51
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    @HansPassant You seem to be insinuating that sz gets truncated. Where do you think that truncation occurs? – Art Jun 23 '16 at 13:33
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    @HansPassant LL is completely unnecessary here. You might want to read section 6.4.4.1 of the C99 or C11 standards. Specifically the bit that says "The type of an integer constant is the first of the corresponding list in which its value can be represented.". The list for decimal constants without a suffix contains long long. – Art Jun 23 '16 at 13:46
  • Thanks for the hint. Still not quite crystal what is supposed to happen when you target a 32-bit platform, afaik it is UB. – Hans Passant Jun 23 '16 at 13:55
  • OP said he was on a 64 bit platform. I think we'll be fine. – Art Jun 23 '16 at 13:57
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The easiest way to allocate more than 4GB of memory in Windows is to just compile as a 64-bit program. If you're using Visual Studio there are 2 ways to do that.

On the initial screen, at the top next to the "debug" dropdown there is a dropdown to specify what mode you want the program to compile to. The default is "x86". Click the dropdown and select "x64".

The second way is to click on the properties of the project. On the next screen, next to "platform" is the Configuration Manager button. Click it and the Configuration Manager screen displays. On the "Active solution platform" click the dropdown and select "x64".

Then the normal malloc will work with more than 4GB.

This is using Visual Studio 2015. I assume you can do similar in other versions of VS.

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Assuming 1) size_t/SIZE_MAX is smaller than available memory 2) and OP needs to perform a single large allocation:

Test your system's calloc().

Depending on implementation, calloc() can allocate more than SIZE_MAX bytes. The below will allocate 4*SIZE_MAX bytes.

uint32_t *p;
size_t nmemb = SIZE_MAX;
p = calloc(nmemb, sizeof *p);
asset(p);

for (size_t i = 0; i < nmemb; i++) {
  p[i] = ...
}

free(p);

I've used this type of code when size_t was 16-bit and available memory was many times larger than that.


OTOH, somecalloc(size_t nmemb, size_t size) will not allow an allocation where (nmemb * size) > SIZE_MAX. YMMV

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