# STL sort not working

for (i = 0; i < t; i++)
{
values.clear();

scanf("%d %d %d", &values[0], &values[1], &values[2]);
printf("%d %d %d\n", values[0], values[1], values[2]);
sort(values.begin(), values.end());
printf("%d %d %d\n", values[0], values[1], values[2]);

printf("Case %d: %d\n", i + 1, values[1]);
}


I have that small snippet. I enter "1200 1500 1800" and it is supposed to give me the middle value - 1500. However, it's outputting 1200, the smallest value.

What I do is I use STL's sort() to sort the vector and then I print values[1], which is the middle value.

However, the sort() doesn't seem to be working at all, the printed vector before and after is the same thing.

I declare my vector with:

vector<int> values (3);


I tried to declare it with vector<int> values; and then push_back(0) three times and it.

I'm wondering why it doesn't work the first way, though.

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values.clear();


This clears values so that it contains no elements any more. Attempting to access any elements will result in undefined behaviour and the std::sort will simply sort the empty sequence of numbers.

The definition of a.clear() where a is a sequence container is:

Destroys all elements in a. Invalidates all references, pointers, and iterators referring to the elements of a and may invalidate the past-the-end iterator.
post: a.empty() returns true

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In order to fix it, just remove this line:

values.clear();


What the above line does, in fact, is to erase all elements from the vector. Then, this line:

scanf("%d %d %d", &values[0], &values[1], &values[2]);
^^^^^^^^^   ^^^^^^^^^   ^^^^^^^^^


Will try to access non-existing elements. Unlike operator [] for associative containers, operator [] for vectors won't create any new element. Thus, the expressions values[0], values[1], and values[2] are all attempts to access non-existing elements.

Per Table 101 of the C++11 Standard:

Expression: a[n]

Return type: reference; const_reference for constant a

Operational semantics: *(a.begin() + n)

This means that by doing this:

values[0]


You are actually doing this:

*(values.begin() + 0)


The call to values.begin() here returns an iterator to the first element in the array. Since there is no element in the vector (§ 23.2.1/6), a call to values.begin() is equivalent to a call to values.end():

begin() returns an iterator referring to the first element in the container. end() returns an iterator which is the past-the-end value for the container. If the container is empty, then begin() == end();

Therefore, values[0] in your case is actually equivalent to this:

*(values.end() + 0)


Which is in turn equivalent to this:

*(values.end())


In other words, you are dereferencing an iterator that points to a position beyond the last element in the container. This is Undefined Behavior, and the same applies of course to values[1] and values[2].

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I think __median function in < algorithm > header is easier.

med = __median(a, b, c);

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You mean std::nth_element. There is no function like __median in the (standard part of the) standard library. – ipc Mar 24 '13 at 14:28

When you clear the vector you are setting the size to 0. The scanf line will ususally not crash since the vector will usually have preallocated some storage where the read values are stored. The result is that when you call sort, begin() and end() will be equal.

You can try either reading the values into temporaries, or calling resize(3) before reading the vaules.

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Your attempt to clear out the actual existing elements with values.clear(); is actually removing them from the vector completely. This has the effect of making begin() and end() equal, causing the sort to have no effect (and the input where you take the address of the various elements to have undefined behavior).

I think what you really wanted to do was make sure that there aren't too many elements in the vector, so instead of clear use resize: values.resize(3) which will have the effect of removing excess elements or increasing the size of the vector to three if it's currently smaller.

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