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I need index access to my std::vector, and therefore I must check if an index is already available to first delete them, and then set a new value.

Here's my setter function:

void SetVector(int position, int value) {
    std::vector<int>iterator it = testVector.begin();
    // need a check here
    testVector.insert(it-testVector.begin()+position, value);

Or is this the wrong C++ collection for my needs? (should grow dynamically, so no std:array possible). Could use a std::map but maybe it's also possible with std::vector.

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What you describe in the text would best be done by saying if (position < testVector.size()) { testVector[position] = value; }. But what your code does seems rather different... can you explain? –  jogojapan Jul 17 '13 at 12:54
Do you want to insert a new item, or change an existing value? –  doctorlove Jul 17 '13 at 13:00
Insert if the index is not set or if set first delete it and save the new value at this position! –  leon22 Jul 17 '13 at 13:04
what do you mean by an index being set? At any given time, a vector has size N, so the valid indices are 0 to N-1. The size fo the vector gives you the currently valid indices. –  juanchopanza Jul 17 '13 at 13:10
Rather checking whether the container is the most appropriate, you should consider whether the design is appropriate. Can you describe in simple words how the function should act? Provide a couple of examples of the sequence before and after a call to SetVector with different parameters? (position < size(), position > size()...) –  David Rodríguez - dribeas Jul 17 '13 at 13:23

4 Answers 4

The requirements aren't entirely clear from the question, but I'm assuming that you want to end up with testVector[position] == value, whether or not position was in range to begin with.

First grow the vector if it's too small. This will insert zero-values after whatever is already there.

if (position >= testVector.size()) {

Then assign the element you want to set:

testVector[position] = value;
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Sorry, but I have to downvote this. resize() will insert a default element which you then overwrite with the value that you actually want. Much better to use push_back(). –  TemplateRex Jul 17 '13 at 13:28
@TemplateRex: push_back() won't necessarily insert it at the desired position, so that would be wrong. This is the simplest way to do what the OP seems to want; I'll add an alternative for when you really want to avoid the cost of inserting and overwriting an element. –  Mike Seymour Jul 17 '13 at 13:30
tnx for updating! +1 now –  TemplateRex Jul 17 '13 at 13:37
@TemplateRex: In fact, I'm going to remove my update, since (as jogogapan says) you'll be modifying the size and capacity multiple times if you try to jump through hoops to avoid the extra assignment. Feel free to restore your downvote if you disagree. –  Mike Seymour Jul 17 '13 at 13:45
@jogojapan OK, I see that it is a tradeoff where push_back() saves an assignment, possibly at the expense of bookkeeping instructions. For large types though this would change, so in general one should measure. The allocation stuff would probably an advantage though, because the implied logarithmic growth has the least amount of reallocations if it is called repeatedly. –  TemplateRex Jul 17 '13 at 13:45

I don't believe the question is clear. If you want

"to first delete them, and then set a new value."

this might work

void SetVector(int position, int value) {
    if (position < testVector.size()) {
        testVector[position] = value;
    else {

You should really make the int position the testVector's size_type.

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+1 for bringing up size_type. push_back of course will ignore the position. Not sure if that's intended. –  jogojapan Jul 17 '13 at 13:12
@jogojapan re push_back... I know, but the comment says "Insert if the index is not set" which could mean anything. –  doctorlove Jul 17 '13 at 13:13
Absolutely. My comment was merely to make the questioner aware of this. –  jogojapan Jul 17 '13 at 13:16
Why the downvote? –  doctorlove Jan 6 at 9:20

You can use std::vector::at who throw an exception if you don't have anything at this index.

The function automatically checks whether n is within the bounds of valid elements in the vector, throwing an out_of_range exception if it is not (i.e., if n is greater or equal than its size). This is in contrast with member operator[], that does not check against bounds.

And since you get a reference on the object at the given index, you can change/delete the value

void SetVector(int position, int value) {
       testVector.at(position) = value;
   catch (const std::out_of_range& oor) {
      testVector.resize(position + 1);
      testVector[position] = value;
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You need resize(position+1), not reserve(position), to make position a valid index. –  Mike Seymour Jul 17 '13 at 13:36
@MikeSeymour ideone.com/oh7Hf5 it's working, I'm not getting your point. Because I see that your argue with push_back and all but we really don't know what the op want to do with this array –  Alexis Jul 17 '13 at 13:44
It's not "working". Your code is writing beyond the end of the vector, giving undefined behaviour - which is certainly not what the OP wants. Unless it's resized to at least position+1, position is not a valid index. –  Mike Seymour Jul 18 '13 at 0:50
@MikeSeymour You're right, I don't know why I have said such a wrong thing. I have edited my answer, thanks ! –  Alexis Jul 18 '13 at 5:52

first get an iterator for your vector by using

 std::vector<int>::iterator it;

it = myvector.begin();

for (it=myvector.begin(); it<myvector.end(); it++)
    std::cout << ' ' << *it;

Using thsi iterator you can traverse all elements and perform respective operation like remove element

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