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I've been trying to make merge sort and insertion sort and comparing the time result for both of them. And from array input size 10 to 10000 merge sort has been slower than insertion sort

this is the code for insertion sort

vector<int> insertion_sort(vector<int> vec)
{
    for(int i = 1 ; i <vec.size();i++)
    {
        int j = i-1;
        while(j>=0 && vec[j+1]<vec[j] )
        {
            int x = vec[j+1];
            vec[j+1] = vec[j];
            vec[j--] = x;
        }
    }
    return vec;
}

And this is the Merge sort code

vector<int> merge(vector<int> left,vector<int> right)
{
    int i = 0;
    int j = 0;
    vector<int> ret(left.size()+right.size());
    int it = 0;
    for(; i <left.size() && j<right.size();)
    {
        if(left[i]<right[j])
            ret[it++]=(left[i++]);
        else if(right[j]<left[i])
            ret[it++]=(right[j++]);
        else ret[it++]=(left[i++]),ret[it++]=(right[j++]);
    }
    for(;i<left.size();)
        ret[it++]=(left[i++]);
    for(;j<right.size();)
        ret[it++]=(right[j++]);
    return ret;
}
vector<int> merge_sort(vector<int> A,int start,int end)
{
    if(start >= end) 
    {
        vector<int> v(1);
        v[0]=(A[start]);
        return v;
    }
    int mid = (start+end )/ 2;
    vector<int> left = merge_sort(A,start,mid);
    vector<int> right = merge_sort(A,mid+1,end);
    return merge(left,right);
}

and finally this is how I call all of them and calculate time

int main()
{
    vector<int> rand_vec;

    srand(time(0));
    for(int i = 0 ; i <SIZE;i++)
    {
        rand_vec.push_back(rand()%SIZE);
    }
    int t = clock();
    vector<int> merge_sorted = merge_sort(rand_vec,0,rand_vec.size()-1);
    puts("");
    printf("merge sort time = %d\n",clock() - t );


    t = clock();
    vector<int> insertion_sorted = insertion_sort(rand_vec);
    puts("");
    printf("insertion sort time = %d\n",clock() - t );
    return 0;
}

I want to know if I did something wrong in that code to make the time for merge sort more than the time used in insertion sort.

Thanks.

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What is SIZE? If it's small, that might be your issue. –  templatetypedef Oct 12 '13 at 1:20
1  
I am more a java guy, but doesn´t passing the vector as a parameter create a copy of it (the copy constructor)? That would be heavy. –  SJuan76 Oct 12 '13 at 1:22
    
@templatetypedef I've tried SIZE from 5 to 100000 and every time merge sort takes more time –  AerRayes Oct 12 '13 at 1:22
    
@SJuan76 I was afraid too that passing vectors might create a dilemma. at the same time I wanted to make it this time using vectors –  AerRayes Oct 12 '13 at 1:23
    
Instead of vector<int>, use a *vector<int> (and change the rest of the code accordingly). –  SJuan76 Oct 12 '13 at 1:23
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3 Answers 3

up vote 1 down vote accepted

to summarize the answers provided so far:
- use reference (or pointer ) to avoid copying vectors:
- use reserve when you know the size in advance, before using thousands of push_back (so that you do not need to reallocate dynamically whenever the capacity is exceeded)
- you can do const vector<int>& merge_sorted = ... to avoid copy when returning your vector

share|improve this answer
    
"People sometimes worry about the cost of std::vector growing incrementally. I used to worry about that and used reserve() to optimize the growth. After measuring my code and repeatedly having trouble finding the performance benefits of reserve() in real programs, I stopped using it except where it is needed to avoid iterator invalidation (a rare case in my code). Again: measure before you optimize." -- Bjarne Stroustrup (stroustrup.com/bs_faq2.html#slow-containers) –  rici Oct 12 '13 at 2:54
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Passing vectors by reference rather than by value makes a huge difference. On my machine with SIZE=50000, compiled with -O3, before:

merge sort time = 5730000

insertion sort time = 1470000

After:

merge sort time = 10000

insertion sort time = 1470000

I only changed two lines:

vector<int> merge(const vector<int> &left,const vector<int> &right)
vector<int> merge_sort(const vector<int> &A,int start,int end) 
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Apart from the mrip answer about references, keep in mind:

"Insertion sort is one of the fastest algorithms for sorting very small arrays, even faster than quicksort. The best case input is an array that is already sorted. In this case insertion sort has a linear running time. The simplest worst case input is an array sorted in reverse order."

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