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I have a single buffer, and several pointers into it. I want to sort the pointers based upon the bytes in the buffer they point at.

qsort() and stl::sort() can be given custom comparision functions. For example, if the buffer was zero-terminated I could use strcmp:

int my_strcmp(const void* a,const void* b) {
  const char* const one = *(const char**)a,
  const two = *(const char**)b;
  return ::strcmp(one,two);
}

however, if the buffer is not zero-terminated, I have to use memcmp() which requires a length parameter.

Is there a tidy, efficient way to get the length of the buffer into my comparision function without a global variable?

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8 Answers 8

up vote 3 down vote accepted

Is there a reason you can't null-terminate your buffers?

If not, since you're using C++ you can write your own function object:

 struct MyStrCmp {
    MyStrCmp (int n): length(n) { }
    inline bool operator< (char *lhs, char *rhs) {
       return ::strcmp (lhs, rhs, length);
    }
    int length;
 };
 // ...
 std::sort (myList.begin (), myList.end (), MyStrCmp (STR_LENGTH));
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beat me by 30 secs :) +1 –  Evan Teran Feb 24 '09 at 19:01
    
Note: std::sort takes iterators not containers. –  Evan Teran Feb 24 '09 at 19:02
    
haha! -- at least you got the std::sort call correct .. forgot about iterators ;) –  eduffy Feb 24 '09 at 19:03
    
thanks, you're accepted answer since you answered slightly faster than Evan, and Evan has tons of points already. I put a working version Evan's comments; pls update your code too? –  Will Feb 24 '09 at 20:01
    
@Will: aww, rep bias :(. Oh well, no hard feelings, glad you were able to get a working solution. –  Evan Teran Feb 24 '09 at 20:27

With std::sort, you can use a Functor like this:

struct CompString {
    CompString(int len) : m_Len(len) {}
    bool operator<(const char *a, const char *b) const {
        return std::memcmp(a, b, m_Len);
    }
private:
    int m_Len;
};

Then you can do this:

std::sort(begin(), end(), CompString(4)); // all strings are 4 chars long

EDIT: from the comment suggestions (i guess both strings are in a common buffer?):

struct CompString {
    CompString (const unsigned char* e) : end(e) {}
    bool operator()(const unsigned char *a, const unsigned char *b) const {
        return std::memcmp(a, b, std::min(end - a, end - b)) < 0;
    }
private:
    const unsigned char* const end;
};
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struct CompString { CompString (const unsigned char* e) : end(e) {} bool operator()(const unsigned char a, const unsigned char *b) const { return (-1 == ::memcmp(a, b, __min(end-a,end-b))); } private: const unsigned char const end; }; –  Will Feb 24 '09 at 19:50
    
This approach got me started. I just posted some minor corrections. Pls update the code. –  Will Feb 24 '09 at 19:52
    
I couldn't get the operator< to compile, but with a functor overloading the (), it worked a charm! –  Will Feb 24 '09 at 20:39
    
for the sake of completeness, I should say that my solution failed to account for when the bytes matched - as far as the end of the buffer, but obviously one string would be longer than the other... –  Will Feb 26 '09 at 9:03
    
well you implied in the original request that all strings being compared were the same length... –  Evan Teran Feb 26 '09 at 22:17

With the C function qsort(), no, there is no way to pass the length to your comparison function without using a global variable, which means it can't be done in a thread-safe manner. Some systems have a qsort_r() function (r stands for reentrant) which allows you to pass an extra context parameter, which then gets passed on to your comparison function:

int my_comparison_func(void *context, const void *a, const void *b)
{
    return memcmp(*(const void **)a, *(const void **)b, (size_t)context);
}

qsort_r(data, n, sizeof(void*), (void*)number_of_bytes_to_compare, &my_comparison_func);
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BSD systems, including MacOS X, include qsort_r(); it appears other platforms do not. –  Jonathan Leffler Feb 24 '09 at 19:24

Can you pack your buffer pointer + length into a structure and pass a pointer of that structure as void *?

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How does this work with qsort or std::sort? –  J.F. Sebastian Feb 24 '09 at 19:08
    
You create a new array of these structures and sort that using a custom comparison function. If you must access the original array (instead of the underlying data), you can maintain pointers or indexes from the new array to the old, which you can use after it is sorted. –  Randy Proctor Feb 24 '09 at 20:22

You could use a hack like:

int buffcmp(const void *b1, const void *b2)
{
    static int bsize=-1;
    if(b2==NULL) {bsize=*(int*)(b1); return 0;}
    return memcmp(b1, b2, idsize);
}

which you would first call as buffcmp(&bsize, NULL) and then pass it as the comparison function to qsort.

You could of course make the comparison behave more naturally in the case of buffcmp(NULL, NULL) etc by adding more if statements.

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You could functors (give the length to the functor's constructor) or Boost.Lambda (use the length in-place).

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I'm not clear on what you're asking. But I'll try, assuming that

  • You have a single buffer
  • You have an array of pointers of some kind which has been processed in some way so that some or all of its contents point into the buffer

That is code equivalent to:

char *buf = (char*)malloc(sizeof(char)*bufsize);
for (int i=0; i<bufsize; ++i){
    buf[i] = some_cleverly_chosen_value(i);
}

char *ary[arraysize] = {0};
for(int i=0; i<arraysize; ++i){
   ary[i] = buf + some_clever_function(i);
}

/* ...do the sort here */

Now if you control the allocation of the buffer, you could substitute

char *buf = (char*)malloc(sizeof(char)*(bufsize+1));
buf[bufsize]='\0';

and go ahead using strcmp. This may be possible even if you don't control the filling of the buffer.

If you have to live with a buffer handed you by someone else you can

  1. Use some global storage (which you asked to avoid and good thinking).
  2. Hand the sort function something more complicated than a raw pointer (the address of a struct or class that supports the extra data). For this you need to control the deffinition of ary in the above code.
  3. Use a sort function which supports an extra input. Either sort_r as suggested by Adam, or a home-rolled solution (which I do recommend as an exercise for the student, and don't recommend in real life). In either case the extra data is probably a pointer to the end of the buffer.
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What?!? The problem statement is unclear. One byte? Two bytes? Up to the end of the buffer? That value of the pointer? All of these are valid understandings of what Will has written. –  dmckee Feb 24 '09 at 19:14
    
Second sentence: "I want to sort the pointers based upon the bytes in the buffer they point at." OP is asking how to pass the buffer size into the sorting routine's comparison function. Your answer provides nothing helpful in that regard. –  Adam Rosenfield Feb 24 '09 at 19:31
    
I really don't find that to be clear at all. I'm convince that he means from the pointer to the end because he's not complaining about other answers that use that meaning, but... ANyway, I'll work up an answer on that basis. –  dmckee Feb 24 '09 at 19:43

memcmp should stop on the first byte that is unequal, so the length should be large, i.e. to-the-end-of-the-buffer. Then the only way it can return zero is if it does go to the end of the buffer.

(BTW, I lean toward merge sort myself. It's stable and well-behaved.)

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Yes, but how does memcmp() know how big the buffer is? That is the problem at hand. –  Adam Rosenfield Feb 24 '09 at 19:09
    
I guess that's just a plumbing problem. You can't do any worse that writing your own merge sort and passing along any information you care to. –  Mike Dunlavey Feb 24 '09 at 20:03
    
... and of course qsort_r is also valid, if you have it. –  Mike Dunlavey Feb 24 '09 at 20:07

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