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I have a function (say, named next_entity), that generates size_t values. The function acts as a generator, that is, it produces a new value on each call, and, finally, returns 0 as a sentinel.

In another function, that calls next_entity, I need to store the values somewhere. I don't know the amount of the values before I receive the sentinel, so I cannot malloc or statically allocate an array to contain these values before they come.

The thing is, that after the sentinel comes, the only thing I need to do with the values is to save them to a file, but with no repetitions, that is, each value must occur only once.

After that, the values are no more needed.

I tried to use GHashTable from glib.h during the iteration, to store the values as the keys, but the problem with GHashTable is that the pointers to the keys passed to the function g_hash_table_insert must remain alive during the lifecycle of the hash-table, so I have to do kind of malloc(sizeof(size_t)) for each new value.

It works, but it seems to be quite inefficient, because malloc is time-consuming.

Is there any better way to do that?

I can post the real code if it is needed, but I don't think the problem is about the code.

Any help would be appreciated, thank you in advance!

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What kind of values next_entity generates? sample values would be helpful. if it can be treated as an integer bouded in some range I've got an idea, but doesnt work for any generic type. –  Sanjeevakumar Hiremath Mar 1 '11 at 10:25
    
321681232;321682368;321681472;326130336;326165232;325443504; 321680432;324998096;320391552;326178192;326178160;321680208; 325442128;324791472;326130304;326182544;325030320;326160816; 321680880;325442192; –  Pupkov-Zadnij Mar 1 '11 at 10:35
    
@sanjeevakumar-hiremath Do you mean bit-array? –  Pupkov-Zadnij Mar 1 '11 at 10:41
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4 Answers 4

up vote 1 down vote accepted

The keys in a hash table are a void*, and a void* is always at least as large as a size_t.

All you need to do is, instead of malloc(sizeof(size_t)), use g_hash_table_new(NULL,NULL) to use g_direct_hash as the hash method. Then do this:

g_hash_table_replace(table, GSIZE_TO_POINTER(value), GSIZE_TO_POINTER(value))

To iterate over keys, use GPOINTER_TO_SIZE to get back to the size_t.

You can always do this for any integer type, instead of malloc'ing it. (use GINT_TO_POINTER, GUINT_TO_POINTER, instead of GSIZE_TO_POINTER when appropriate)

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Yes, it works great! Thank you very much, your answer is definitely the most useful so far. I just didn't know that g_hash_table_new(NULL,NULL) enables g_direct_hash as the hash method. –  Pupkov-Zadnij Mar 2 '11 at 13:21
    
The only wrong thing: GPOINTER_TO_SIZE actually casts to gsize, not to size_t, and these types differ in size. I did with simple type casts like (void*)value and (size_t)key. –  Pupkov-Zadnij Mar 2 '11 at 13:25
    
gsize and size_t should not be different in size... if so it's some bug in glib or something. But yeah, just casts are probably fine here, the glib macros are more paranoia/future-proofness than actually necessary. –  Havoc P Mar 2 '11 at 16:06
    
Hmmm, maybe, the thing is that I have x86_64 gcc and (maybe) both i386 and x86_64 glib... So, glib headers may be for i386, I'm to sure. –  Pupkov-Zadnij Mar 3 '11 at 8:00
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If you data size is not gigabytes, you can do with a dynamically array, which you double in size with realloc()ing every time you run out of space. With this strategy only log(N) reallocations will have to happen.

In C++, for example, a lot of std::vector implementations usually do just that.

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Thank you for your answer. Is there any way to evaluate the limit? Does GArray from glib act like this? –  Pupkov-Zadnij Mar 1 '11 at 10:25
    
@Pupkov-Zadnij On the second thought I removed this from my answer. By the looks of it, the usual implementation relies on system failing to allocate memory. By this point you try to handle out of memory error or get killed by the OS (Linux). You should probably handle any limits in the application. –  Alex B Mar 1 '11 at 10:36
    
@Pupkov-Zadnij Looking at glib source code, GArray appears to employ the same strategy. –  Alex B Mar 1 '11 at 10:42
    
What do you think about Jim Balter's answer? –  Pupkov-Zadnij Mar 1 '11 at 11:03
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Others have suggested realloc. Instead of that, consider using a linked list of malloced blocks, where each block contains a largish array of numbers; when you fill up a block, allocate another one and link the previous one to it ... or link it to the previous one and then reverse the list before outputing them. The point is that you don't need to store your values in contiguous memory, so you don't need to use realloc. realloc copies the previous array, which you can avoid and which will be slow for very large arrays, and it could even run out of memory if it can't find a large enough contiguous block, whereas allocating individual blocks is more resilient. The downside is that it takes more work to manage the linked list.

==== Edit for GHashTable usage:

Store your value into the array and pass the address of that element to the hash routine ... if it's not already present, advance the array pointer. To output the values, just enumerate the keys from the hash table. The linked list of arrays is only needed for deallocating them. If this is all the program does, then you don't even need to maintain a linked list; you can just allocate arrays as you need them, and they will all get deallocated when your program exits.

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I see the point. Thank you. –  Pupkov-Zadnij Mar 1 '11 at 11:02
    
I like this (+1). But how are you going to eliminate duplicates from several blocks of numbers? –  pmg Mar 1 '11 at 11:08
    
@Pupikov-Zadnij -- I've edited this, adding some more info, since you selected it. If you need more info about managing such a linked list, let me know. –  Jim Balter Mar 1 '11 at 11:09
    
@pmg good point that I overlooked ... but the same problem exists for a realloced array. To avoid duplicates, the OP really needs a hash table or search tree. Best to use an available package. –  Jim Balter Mar 1 '11 at 11:12
    
@pmg -- I use GHashTable to eliminate the duplicates, the thing is, that the it cannot store the values @Jim Balter -- thank you in advance, isn't GSList from glib.h enough in this case? –  Pupkov-Zadnij Mar 1 '11 at 11:16
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The usual way is to multiply the space used by a constant (2, 1.69, 1.618, 1.5, ...).

I like the golden ratio :)

arr = malloc(elems * sizeof *arr);
{
    /* ... */
    elems = elems * 13 / 8; /* approximate golden ratio */
    tmparr = realloc(arr, elems * sizeof *arr);
    if (tmparr == NULL) /* deal with error */;
    arr = tmparr;
    /* ... */
}
free(arr);
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Looks fantastic, but what is the magic of the golden ration? Why is it better to multiply by 13/8 and not by 8/13, for example? –  Pupkov-Zadnij Mar 1 '11 at 10:38
    
Well ... to grow the array you have to multiply by a number bigger than 1 :) –  pmg Mar 1 '11 at 10:40
    
And the golden ration is no more magic than 2. I'm sure there is a optimum multiplicand for general use (I don't know what it is). The idea is to minimize the number of realloc calls and minimize 'wasted' memory. As I said: I just like the golden ratio. –  pmg Mar 1 '11 at 10:42
    
:) :) I actually mean - why by 13/8 and not by any other number bigger than 1? –  Pupkov-Zadnij Mar 1 '11 at 10:42
1  
The golden ratio is magic. Below it you can reuse the previously freed memory to fill the current request, over it you can't (mathematical derivation -- with text in french -- is here: bourguet.org/v2/cs/realloc; note that the nearer your are to the golden ratio, the more resizing are needed before it is possible). 13/8 is just above the golden ratio, so you never can reuse the freed memory to fill up the request. Personnaly I like 1.5, just add half of want is currently allocated. –  AProgrammer Mar 1 '11 at 11:07
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