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I am working on a merge sort function. I got the sort down - I am trying to get my merge part finished. Assume that I am learning C++, have cursory knowledge of pointers, and don't understand all the rules of std::vector::iterator's (or std::vector's, for that matter).

Assume that num is the size of the original std::vector that have copied (std::copy) values from an array of size "int ar[num]." Assume that farray has the values of (0 to (num / 2)) and sarray has the values of ((num / 2) to num).

int num = original.size();
std::vector<int> final(num);

for (std::vector<int>::iterator it = farray.begin(); it != farray.end(); ++it) {
     for (std::vector<int>::iterator iter = sarray.begin(); iter != sarray.end(); ++iter) {
         if (*it > *iter) final.push_back(*it);
          else
               final.push_back(*iter);
     }
}

This code compiles and my latest stable build of Bloodshed Dev-C++ does not throw any warnings or errors. I don't know if this is valid, I still need to try and cout all the values of final. I just want to know if this is common, prone to errors, or just bad style. And, if so, how you would

share|improve this question
    
If you're still trying to grasp iterators and such, it might be useful to write it using a familiar notation (like using the [] operator), and then, once it works, swap to iterators. But don't stick with the [], because iterators are important to understand, especially when you get to other stl types like maps and sets, etc. –  Smashery Apr 20 '09 at 2:47

6 Answers 6

up vote 6 down vote accepted

It's valid... but a for loop probably isn't what you want. When you use two for loops, your inner loop keeps going back to the start every time the outer loop loops. So if your vectors contain:

farray: 10 9 8 4 3
sarray: 7 6 4 3 1

Then your final array will contain something like:

10 10 10 10 10 9 9 9 9 9 8 8 8 8 8 7 6 4 4 4 7 6 4 3 3

because you are testing every single combination, and adding the larger one to the final list. A better solution might be to remember an iterator for each list, and just use one loop. Rather than looping over a list, just go through both of them together - if sarray has the larger number, then increment your sarray iterator, and compare that with the old farray iterator. Stop your loop when both sarray and farray are empty.

vector<int> fiter = farray.begin();
vector<int> siter = sarray.begin();
vector<int> final;

// Let's traverse both farray and sarray.
// We'll want to stop this loop once we've traversed both lists.
while (fiter != farray.end() && siter != sarray.end())
{
    if (fiter == farray.end())
    {
        // we must have gone right through farray - 
        // so use the value from sarray, and go to the next one
        final.push_back(*siter);
        siter++;
    }
    else if (siter == sarray.end())
    {
        // we must have gone right through sarray - 
        // so use the value from farray, and go to the next one
        final.push_back(*fiter);
        fiter++;
    }
    else if (*siter > *fiter)
    {
        // siter is the bigger of the two - add it to the final list, and
        // go to the next sarray entry
        final.push_back(*siter);
        siter++;
    }
    else // *fiter >= *siter
    {
        // fiter is the bigger of the two - add it to the final list, and
        // go to the next farray entry
        final.push_back(*fiter);
        fiter++;
    }
}

I haven't tested it - and if this is for homework, then please try to understand what I've done, go away and write it yourself, rather than copy+paste.

share|improve this answer
    
Would you explain your implementation? –  Hooked Apr 20 '09 at 2:20
    
I've given an example (untested) implementation - it just uses one while loop, and keeps going through until it's traversed both lists. If it's made it all the way through one list, it just adds those in the untraversed list. Otherwise, it compares the two items, and adds the bigger one, before incrementing the iterator within that list. –  Smashery Apr 20 '09 at 2:29
    
In addition, 'final' is being created with 'num' entries of 0 to begin with, then the real entries are appended to that. I don't think that's desired behavior. –  Fred Larson Apr 20 '09 at 2:35
    
OK, thanks for the example. I understand what you are doing here. Fred, what do you mean it's being created with 0 entries? In the rest of the mergeSort() code, I have an originalarray = { //ten values}, which I just use std::copy to put into std::vector<int> original. –  Hooked Apr 20 '09 at 2:46
    
By the way, I am not even taking classes - I am learning this on my own time, with a few friends helping me. I wouldn't bother doing it if I didn't try to do it well. –  Hooked Apr 20 '09 at 2:54

Merge sort algorithm aside, nested for loop with iterator's is just as valid as nested for loops with two variables i and j.

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It was my understanding that iterators were my only option - can you use integers to iterate over std::vector v? –  Hooked Apr 20 '09 at 2:16
    
Of course you can. Use the [] operator, just like an array, or the at() member function. Check your favorite STL documentation for details. –  Rob Kennedy Apr 20 '09 at 2:21
    
iterators in this case will compile down to pointers, and just using the inder [] will behave the same, but, I was referring to a nature of nested loops in general. –  Simeon Pilgrim Apr 20 '09 at 2:27
    
Nothing wrong with using pointers though to get more familiarity with them but they come in two flavours: const and non-const and when you're using them in readonly mode you should make them const to be ultra-correct. So you could use std::vector<int>::const_iterator. Incidentally putting using std; at the top of a file will remove the need for putting the namespace qualifier std:: in front of vector etc. –  TheMathemagician Dec 13 '12 at 13:48

You can nest loops of any kind (for, while, do while) as long as you don't reuse the loop variables. If you would try that it would compile but may fail miserably during runtime. Although technically allowed to use the same name for nested loop variables in modern C and C++ it is confusing and should be avoided.

It's no more or less prone to errors than a single loop except for the already mentioned problem with the reuse of loop variables.

Read more about the limits of nested loops.

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You can reuse loop variables in nested loops. It's not normally a good idea, but it doesn't automatically mean that it will crash at runtime if you're careful with what you do with them. –  Peter Apr 20 '09 at 2:17
    
You mean like using int i = 0 to iterate over both loops? Would you increase it in the embedded loop or the outer loop? –  Hooked Apr 20 '09 at 2:19
    
Failing at runtime does not necessarily mean crashing. It could simply calculate wrong results. –  lothar Apr 20 '09 at 2:20
    
If you write 'int i' in each for loop, you get two separate variables because they're in different scope. In the inner loop you wouldn't be able to access the i from the outer loop. –  Peter Apr 20 '09 at 2:21
    
No, it doesn't necessarily mean crashing, but my point still stands - just because you have two nested loops doesn't automatically mean that you'll get the wrong result. It's tricky but possible to get right. –  Peter Apr 20 '09 at 2:23

Nesting for loops is a totally legit way to do things. For example, it's the classic "old school" way to traverse a 2D array - one loop goes down the y axis, and the other loop goes down the x axis.

Nowadays, with those kids and their for each loops and iterators and mapping functions there are arguably "better" ways to do it, (for some definition of better) but nesting loops works just fine. Using C++ or pointers doesn't change that.

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Yes, you can do this. And yes, it is often prone to errors. In fact, writing loops is itself prone to errors, which is one argument to use the algorithms in the STL like for_each, copy and transform.

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Haha, I am not that far ahead. I actually use std::copy in this program, to copy the values from the original array[num] to std::vector<int> original. Would you mind telling me what the former and latter are? –  Hooked Apr 20 '09 at 2:18
    
I really wonder sometimes who these idiots that downvote responses like this are. –  John Dibling Apr 20 '09 at 3:44
    
Hooked: for_each() is used to perform the same operation on each element in a range, like this: for_each( v.begin(), v.end(), doSomething() ); 'doSomething()' is a so-called functor, which will be executed against each value in 'v'. –  John Dibling Apr 20 '09 at 3:47
    
std::transform() is very similar to copy(), with one big difference. Instead of just making a verbatim copy from one collection to another, it transforms the vector from one type to another using a conversion function you specify. for example suppose you have a vector of numbers and want to format up a vector of strings. you could write a functor which takes an int, uses stringstream << int to format up a string, and copy these values in to a vector<string> –  John Dibling Apr 20 '09 at 3:50
    
A far more useful stl algorithm in this case would be merge (sgi.com/tech/stl/merge.html) –  Eclipse Apr 20 '09 at 4:49

Yes, you can nest loops, or other statements, to pretty much whatever depth you want (within reason; there are limits, as mentioned in another answer, but they're way above what you should ever need).

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