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I am working with some legacy code which uses something like this:

void store_data(FILE *file);

However, I don't want to store data on the disk, I want to store it in memory (char *buf). I could edit all of the code, but the code jumps all over the place and fwrite gets called on the file all over the place. So is there an easier way, for example that I can map a FILE* object to an (auto-growing) buffer? I do not know the total size of the data before-hand.

The solution has to be portable.

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5 Answers

up vote 5 down vote accepted

There is no way to do this using only the facilities provided in the C standard. The closest you can come is

FILE *scratch = tmpfile();
/* after you're completely done calling the legacy code */
buf = read_into_memory_buffer(scratch);

This does hit the disk, at least potentially, but I'd say it's your best bet if you need wide portability and can't modify the "legacy code".

In POSIX.1-2008, there is open_memstream, which does exactly what you want; however, this revision of POSIX is not yet widely adopted. GNU libc (used on Linux and a few others) has it, but it's not available on OSX or the *BSDs as far as I know, and certainly not on Windows.

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Are pipes perhaps an option? –  nightcracker Feb 22 '12 at 20:22
Pipes are not in the C standard either. On Unix, yeah, you could have a pipe loop back to another thread in the same process that wrote to a memory buffer. On Windows, you can theoretically do the same thing but I would expect it to be a source of unending grief, and even on Unix this strikes me as too much work for not that much gain over the tmpfile approach. –  Zack Feb 22 '12 at 21:45
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You might want to look at fmemopen and open_memstream. They do something in the direction of what you want.

From the man page:

The open_memstream() function opens a stream for writing to a buffer. The buffer is dynamically allocated (as with malloc(3)), and automati‐ cally grows as required. After closing the stream, the caller should free(3) this buffer.

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According to the man page on my system, these functions conform to "POSIX.1-2008. These functions are not specified in POSIX.1-2001, and are not widely available on other systems." –  Dan Fego Feb 22 '12 at 19:36
@DanFego: True. –  krynr Feb 22 '12 at 19:39
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I don't know if it's a good idea, but it's an idea.

You can "redefine" fwrite using a macro.

#define fwrite(a, b, c) your_memory_write_function(a, b, c)

Then implement memory_write_function to write data to your auto growing buffer instead of a file.

You will need to call store_data with a pointer to something else though (not a pointer to FILE). But that's possible with C so you will have no issues there.

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On what platform are you running? Can't you use tmpfs? If you open a file on tmpfs, is it not, from the point of view of the kernel, the same as a regular file, but written to memory?

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The code has to be portable, I'm not running on any particular platform/OS (the big three is a good start though). –  nightcracker Feb 22 '12 at 19:43
The big three? That must be FreeBSD, OpenBSD and NetBSD, right? ... Right?? ... (sound of crickets) ... oh, common guys... –  ninjalj Feb 22 '12 at 20:39
@ninjalj You are so looking to start a flame war. But I think it's quite funny :-D –  mydoghasworms Feb 22 '12 at 20:51
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You may want to look into fmemopen(). If that's not available to you, then you could possibly use a named shared memory segment along with fdopen() to convert the file descriptor returned by shm_open() to a FILE*.

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fmemopen does not auto-resize the memory buffer on write, so it doesn't meet the OP's requirements. –  Zack Feb 22 '12 at 19:40
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