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In the C++ Primer book, Chapter (3), there is the following for-loop that resets the elements in the vector to zero.

vector<int> ivec; //UPDATE: vector declaration
for (vector<int>::size_type ix = 0; ix ! = ivec.size(); ++ix)
ivec[ix] = 0;

Is the for-loop really assigning 0 values to the elements, or do we have to use the push_back function?

So, is the following valid?

ivec[ix] = ix;


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Have you tried it? Because that would have answered your first question. If you actually write small programs to try such things you will learn much faster. –  Björn Pollex Jan 31 '11 at 11:05
The primer is showing you looping. In practical terms there are faster ways to assign all the elements to 0. –  CashCow Jan 31 '11 at 11:38
The book mentions that vector<int> ivec; is an empty vector and subscripts can only be used to fetch existing elements –  Simplicity Jan 31 '11 at 17:50

5 Answers 5

Is the for-loop really assigning 0 values to the elements? Or, we have to use the push_back finction?

ivec[ix] =0 updates the value of existing element in the vector, while push_back function adds new element to the vector!

So, is the following valid?
ivec[ix] = ix;

It is perfectly valid IF ix < ivec.size().

It would be even better if you use iterator, instead of index. Like this,

int ix = 0;
for(vector<int>::iterator it = ivec.begin() ; it != ivec.end(); ++it)
     *it = ix++; //or do whatever you want to do with "it" here!

Use of iterator with STL is idiomatic. Prefer iterator over index!

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The change you propose certainly is better style and makes the code safer, but the above code does work, as long you really only increment ix by one in each iteration. –  Björn Pollex Jan 31 '11 at 11:04
... and nothing else messes with the vector. Yes, != works, but why play with fire? –  Christian Severin Jan 31 '11 at 11:08
equally though if you change container type then < may not work. != is pretty idiomatic for coding dealing with iterators as the point is usually to seperate the algorithm from the data structure via iterators –  jk. Jan 31 '11 at 11:26
@jk: "!= is pretty idiomatic for coding dealing with iterators"...if iterators. but the OP is using index, not iterator! –  Nawaz Jan 31 '11 at 11:27
doh, yes - the whole snippet seemed a little strange as it would naturally be a std::fill but then it is an out of context pedagogic example –  jk. Jan 31 '11 at 11:36

Yes, you can use the square brackets to retrieve and overwrite existing elements of a vector. Note, however, that you cannot use the square brackets to insert a new element into a vector, and in fact indexing past the end of a vector leads to undefined behavior, often crashing the program outright.

To grow the vector, you can use the push_back, insert, resize, or assign functions.

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Using the array brackets the vector object acts just like any other simple array. push_back() increases its length by one element and sets the new/last one to your passed value.

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The purpose of this for loop is to iterate through the elements of the vector. Starting at element x (when ix is 0) up to the last element (when ix is ivec.size() -1).

On each iteration the current element of the vector is set to 9. This is what the statement

ivec[ix] = 0;

does. Putting

ivec[ix] = ix;

in the for loop would set all the elements of the vector to their position in the vector. i.e, the first element would have a value of zero (as vectors start indexing from 0), the second element would have a value of 1, and so on and so forth.

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Yes, assuming ix is a valid index, most likely: you have a vector of int though and the index is size_type. Of course you may want to purposely store -1 sometimes to show an invalid index so the conversion of unsigned to signed would be appropriate but then I would suggest using a static_cast.

Doing what you are doing (setting each value in the vector to its index) is a way to create indexes of other collections. You then rearrange your vector sorting based on a predicte of the other collection.

Assuming that you never overflow (highly unlikely if your system is 32 bits or more) your conversion should work.

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