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I'm working on a program to solve the n queens problem (the problem of putting n chess queens on an n x n chessboard such that none of them is able to capture any other using the standard chess queen's moves). I am using a heuristic algorithm, and it starts by placing one queen in each row and picking a column randomly out of the columns that are not already occupied. I feel that this step is an opportunity for optimization. Here is the code (in C++):

	vector<int> colsleft;

	//fills the vector sequentially with integer values
	for (int c=0; c < size; c++)

	for (int i=0; i < size; i++)
		vector<int>::iterator randplace = colsleft.begin() + rand()%colsleft.size();

		/* chboard is an integer array, with each entry representing a row
		and holding the column position of the queen in that row */

		chboard[i] = *randplace;

If it is not clear from the code: I start by building a vector containing an integer for each column. Then, for each row, I pick a random entry in the vector, assign its value to that row's entry in chboard[]. I then remove that entry from the vector so it is not available for any other queens.

I'm curious about methods that could use arrays and pointers instead of a vector. Or <list>s? Is there a better way of filling the vector sequentially, other than the for loop? I would love to hear some suggestions!

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So here's what I found... this original method works fine for 8x8, or even 100x100 chess boards. But with a big board like 1000000x1000000, it takes basically infinite time, almost certainly due to the inefficiency of erase(). A <list> structure would be nice, except then random access is not allowed! However, the simple array-based solution as suggested by MrMage only takes around 0.15 seconds! –  user150695 Aug 16 '09 at 4:11

3 Answers 3

up vote 7 down vote accepted

The following should fulfill your needs:

#include <algorithm>


int randplace[size];

for (int i = 0; i < size; i ++)
    randplace[i] = i;

random_shuffle(randplace, randplace + size);

You can do the same stuff with vectors, too, if you wish.

Source: http://gethelp.devx.com/techtips/cpp_pro/10min/10min1299.asp

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Heh... I ended up arriving at the same thing after a whole process of revisions - started with shuffling the vector instead of accessing it randomly, then moved to an array and realized that this problem only requires one data structure after all! I implemented my own random_shuffle, because I am in a beginner class and my prof. frowns upon relying on the library for such tasks ;) Thanks for the help! –  user150695 Aug 16 '09 at 4:02

Couple of random answers to some of your questions :):

  1. As far as I know, there's no way to fill an array with consecutive values without iterating over it first. HOWEVER, if you really just need consecutive values, you do not need to fill the array - just use the cell indices as the values: a[0] is 0 and a[100] is 100 - when you get a random number, treat the number as the value.
  2. You can implement the same with a list<> and remove cells you already hit, or...
  3. For better performance, rather than removing cells, why not put an "already used" value in them (like -1) and check for that. Say you get a random number like 73, and a[73] contains -1, you just get a new random number.
  4. Finally, describing item 3 reminded me of a re-hashing function. Perhaps you can implement your algorithm as a hash-table?
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Your suggestion 3 may work well for the first few iterations, but as you reach the end of the selection list (and most of the items are already marked as visited), then your selection step will get slower and slower as it has to generate more new random numbers each time. –  Greg Hewgill Aug 15 '09 at 22:26
Agreed. Hence the need for a better re-hashing algorithm :) –  Traveling Tech Guy Aug 15 '09 at 22:50
Yes, your #3 was the first method I used, until I realized how long it would take when the board gets big... –  user150695 Aug 16 '09 at 4:04

Your colsleft.erase(randplace); line is really inefficient, because erasing an element in the middle of the vector requires shifting all the ones after it. A more efficient approach that will satisfy your needs in this case is to simply swap the element with the one at index (size - i - 1) (the element whose index will be outside the range in the next iteration, so we "bring" that element into the middle, and swap the used one out).

And then we don't even need to bother deleting that element -- the end of the array will accumulate the "chosen" elements. And now we've basically implemented an in-place Knuth shuffle.

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