8

Before now I've been learning to code at school (vectors, char, two-dimentional arrays, nothing too fancy) and have been coding in C++, in CodeBlocks. A month ago I started studying from C++ Primer. I'm now at vector types and I have it all confused. When I used to use vectors I never included any other library and I declared the vector something like this:

#include <iostream>

int main ()
{
    int v[10];
    return 0;
}

Now a vector is defined in a much more complicated way , using the vector library, mentioning the element type in the definition and so on.

I was just wondering how is there such a big difference in subject I thought fairly easy. What's really the matter with these vectors?

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  • 17
    int v[10] is an array not a vector. Jan 5, 2018 at 14:36
  • 11
    What you call "vector" (assuming you mean v in the above example) is really an array. The std::vector template can be seen as a dynamic array, where you can add and remove elements when needed, at runtime. An array have a size that is fixed at compiletime. For example the array v in your example, it have 10 elements, and will always have 10 elements. It doesn't matter if some of them are not initialized, those elements still exists. Jan 5, 2018 at 14:36
  • 1
    This might help: stackoverflow.com/questions/15079057/…
    – Rakete1111
    Jan 5, 2018 at 14:38
  • 7
    That makes a lot of sense, the word for array in my native language is "vector" so that got me confused. Jan 5, 2018 at 14:38
  • 3
    Possible duplicate of Arrays vs Vectors: Introductory Similarities and Differences Jan 5, 2018 at 14:52

3 Answers 3

13

You are getting confused because the mathematical concept of a vector can mean a "collection of data" and that is what you were taught int v[10] was. The actual name for that in C++ (and most other languages) is an "array" not a vector.

The libraries referred to in C++ Primer have a class called "vector" which is an implementation of an array. They are similar, but not the same.

I hope that clears that up a bit. You are probably confused because you were taught that int v[10] is a vector, but it is "not really" in C++. It's an array. Use that term to refer to it. If you ever refer to it as a vector, you will confuse others and yourself.

5
  • I agree that this is the source of the confusion.. But I think that in a math sense both std::vector and int v[10] are mathematical vectors. The distinction is in the properties and characteristics of the datatypes used to store the data. We as developers will use the term "array" usually to describe the primitive raw memory allocation that is v[10] and vector or DynamicArray or other name for the a class/datatype that is used to store the data..
    – Rob
    Jan 5, 2018 at 15:05
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    @Rob actually in mathematics a vector (not the std::vector) has a fixed size of elements, ie it lives in some vector space (eg R^3, the euclidian space) of a given dimensionality. The fact that in the c++ world the term "vector" specifically refers to "dynamic size" indeed is rather confusing Jan 5, 2018 at 15:09
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    @Rob Maybe std::valarray sounds more like a "mathematical vector"?
    – iBug
    Jan 5, 2018 at 15:10
  • @tobi303 semantics. Can you use v[10] and std::vector logically for the purpose of storing values as mathematical "vector"? YES.. therefore they are both (and there are other) C++ constructs to achieve this goal that is all that matters. The key from this point is to pick the construct that is the most appropriate based on the needs of the program.
    – Rob
    Jan 5, 2018 at 15:11
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    While I agree with most of your points about suitability of usage @Rob, I think the original question is a pure "word usage confusion" point, rather than what containers are most appropriate for which uses for various mathematical representations and/or algorithms. That the OP said that there was a translation issue with her native speaking language and "vector" and "array" being confused with one another reinforces this view. I agree the distinctions are important when programming, but this question was simpler than that IMO. Jan 5, 2018 at 20:14
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The confusion here comes from several "name collisions" in C++ and its Standard Library.

  • C++ has built-in objects called arrays. Variable v in your program is of type "array of ten integers".
  • Other programming languages refer to arrays as vectors, prompting instructors familiar with multiple programming languages to call C++ arrays "vectors." This is what your course instructor did, even though it is inconsistent with C++ nomenclature of types.
  • C++ Standard Library defines a template class called std::vector. This is what your book calls "vectors", which is correct.
  • C++ Standard Library defines another template class called std::array to represent a fixed-size arrays. This creates a confusion with built-in C++ arrays.

To avoid confusion, refer to int v[10] as "built-in array," std::array<int, 10> v as "array container," and std::vector<int> v as "vector."

1
  • Don't forget std::valarray, which is more mathematical in intent, but rarely used IME.
    – metal
    Jan 8, 2018 at 19:27
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Because those aren't really, really vectors.

In C++, when people say "vector", they're mostly referring to an STL container, std::vector. It is essentially a dynamic array that's convenient to use and powerful.

What you have written is a simple array with a fixed length. It has very limited functionality. If you have an array that is defined to hold 10 elements, you can't change it later so that it can hold 11 elements. It's size is static.

To use std::vector container, include its corresponding header first:

#include <vector>
using std::vector;

It's a templated class so you must suggest a type when defining an instance:

vector<int> v;

You can then do various things on it, for it being a kind of a dynamic array:

v.resize(10); // Note its size is 0 at definition
v[9] = 123;
v[7] = 456;

Note you can't resize an array like that. Though dynamic allocation is an alternative, you'd soon mess up with it.

You can also copy a vector directly without writing a loop as you have to when dealing with arrays:

vector<int> v2 = v;

Vectors can also be returned from functions, while arrays can't:

vector<int> getVector(void){
    vector<int> ret = {1, 2, 3, 4};
    return ret;
}

vector<int> v = getVector();

This answer is only a vague introduction that should help you clear off the basics. You can refer to the link above for more information.

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