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I'm fairly new to complexity measures, please bear with.

I understand the following complexity examples:

O(n) - Linear Time


std::vector<int> MyV={1,4,6,2,9};
std::for_each(MyV.begin(), MyV.end(), [](int e1, int e1){return e1<e2;});
//I.e. n of operations based on the number of elements

O(1) - Constant Time


for(int i=5; i--;)
  //Do Stuff
//i.e. n of operations will be 5

O(n2) - Quadratic Time


std::vector<int> MyVec_A={1,2,3,4,5};
std::vector<int> MyVec_B={1,2,3};
for(int i=MyVec_A; i--;)
  for(int x=MyVec_B; x--;)
    //Do Stuff

Are the above example correct?

If not, could you provide some pointers as to how I can correct the examples?

I'm also unsure of Logarithmic time O(log n), an example would be really helpful?

marked as duplicate by OldProgrammer, ivan_pozdeev, Baum mit Augen c++ Oct 16 '16 at 19:08

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

  • Is this mistagged? Looks like C++ but you have a Haskell tag. Also, note that in for loops the increment statement doesn't need to be terminated with a semicolon for(int i=5; i--) ... instead of for(int i=5; i--;) – Alec Oct 16 '16 at 18:33
  • 1
    @Alec according to the latest clang compiler, the ; is required for this reverse loop as opposed to: for(int 1=0; 1<V.length(); i++)... – Babra Cunningham Oct 16 '16 at 18:37
  • 1
    Oh yeah. I missed the fact that that was you break condition. :) As for O(log n), doing binary search on a sorted vector is O(log n). – Alec Oct 16 '16 at 18:41
  • Related: stackoverflow.com/questions/9152890/… – templatetypedef Oct 16 '16 at 18:51

You say that your last example is O(n2), but what's n??? That's what you should ask yourself. It's usually the size of the vector that the loop runs.

The easy case would be to have:

std::vector<int> MyVec_A = {1, 2, 3, 4, 5};
std::vector<int> MyVec_B = {1, 2, 3, 4, 5};
for(int i = MyVec_A; i--;)
  for(int x = MyVec_B; x--;)
    // Do Stuff that are of negligible complexity

and now say confidently, the complexity of this example is: O(n2), where n is the size of MyVec_A (or MyVec_B equivalently).

Now, in your specific example, the length of the vectors differ, thus you need to change what you have. Let's say that MyVec_A has size n and ``MyVec_Bhas sizem`, then this double loop will have a time complexity of:


I hope it's clear that when the vectors are of the same size, as in my example, then n = m and the complexity becomes O(n * m) = O(n * n) = O(n2).

The hello world of the logarithmic complexity is the binary search method.

Given an array of integers, you are requested to find a number that comes from user input. You can either search linearly the entire array (O(n) complexity, where n is the size of the array), or, if the array is sorted, you can find the element in O(logn), by using the Binary search algorithm. I even have an example Binary Search (C++).

BTW, learn to ask a single question (or very tightly connected subquestions to a question).

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