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This question is translated into English by me from another forum, I found it interesting and then just write a Java solution. And found there's some heap size problem when dealing with large number like 10000000. And I would like to seek some really smart solution compared with my own.

Original Post is in Chinese. And I kind of revised it a little based on my understanding to make it clearer. http://zhidao.baidu.com/question/1637660984282265740.html?sort=6&old=1#here

Below is the puzzle:

10000 rows of numbers;
1 row: 2,4,6,8...2K(2K<=10000000); (numbers no repeats for this row)
2 row: 3,3,6,6,9,9...3K(3K<=10000000); (starting from this row, each number repeats 2 times and a multiple which has something to do with row number (2XrowNumber-1) to be specificaly)
3 row: 5,5,10,10,15,15...5K(5K<=10000000);
and following 7K,9K,11K,13K....until
10000 row: 19999,19999,39998,39998....19999K,19999K (19999K<=10000000);

That's all the rows to be used in the following part. And now we will calculate the repeat times of numbers starting from row 1 and row 2:

Integer w1 is the repeat times of numbers in row 1 and row2. For example, consider row 1 numbers 2,4,6 and row 2 numbers 3,3,6,6. Then the repeat times up to this point would be 3 since 6 is already in row 1 and appears 2 times in row 2, and 3 appears 2 times in row 2;

Integer w2 is the repeat times of numbers in row 1 and row 2 and row 3. 
Integer w3 is the repeat times of numbers in row 1 and row 2 and row 3 and row 4. 
Integer w9999 is the repeat times of numbers of row 1,row 2,row 3 .....row 10000.

And now print out all integers, w1,w2....w9999;

I have come up with one Java solution, but I have heap size problem since 10000000 is too large and the memory is not enough. So I just use 10000 instead of 10000000, and 10 instead of 10000. Below is what I write in Java. I guess it should be right (if not, please point it out):

    Set nums = new HashSet();
    int max = 10000;
    int row = 10;
    for (int i=2;i<=max;i+=2){
        nums.add(new Integer(i));
    int nums_size = nums.size();
    int w = 0;
    for (int i=2;i<=(row);i++){
        int tmp_count = 0;
        int self_count = 0;
        for (int j=(2*i-1);j<=max;j+=(2*i-1)){
            nums.add(new Integer(j));
            if (nums.size()==nums_size){
            } else {
                nums_size = nums.size();
        w += tmp_count;
        w += self_count;
        System.out.println("w"+(i-1)+": "+w);

My question is

  1. How to get a better solution in Java (if any)?
  2. How to do it in C since there would be no Set class in C as I remember. (importing 3rd party library would not be preferred)?


share|improve this question
I am surprised people already give down vote and not even tell me why? –  Felix Nov 12 '13 at 9:24
This is stupid why was this downvoted - maybe someone did not know the answer. –  al-Acme Nov 12 '13 at 9:25
Is there a pattern for the numbers in each row? –  user1990169 Nov 12 '13 at 9:35
@Felix What about the first row? No repeats? –  Steve P. Nov 12 '13 at 9:39
What you mean by repeat times? Is it the maximum number of occurence of a number? For w1(row1=2,4,6 & row2=3,3,6,6) 2 occurs 1 time, 3 occurs 2 times, 4 occurs 1 time and 6 occurs 3 times, so w1 = 3. Did I get it correctly? –  inankupeli Nov 12 '13 at 9:57

2 Answers 2

up vote 3 down vote accepted

Here is a simplified version of your code. Since it doesn’t use HashSet, creating a C version out of it should be no problem anymore.

int max = 10000;
int row = 10;
boolean[] seen=new boolean[max+1];
for(int i=2;i<=max;i+=2) seen[i]=true;
int w = 0;
for(int i=2;i<=(row);i++) {
    int self_count = 0;
    for(int j=(2*i-1);j<=max;j+=(2*i-1)) {
        if(seen[j]) w++; else seen[j]=true;
    w += self_count/2;
    System.out.println("w"+(i-1)+": "+w);
share|improve this answer
I got your idea, and I think this is much better with the use of primitives. Saved a lot of memories. How can I forget to use the basics? Guess I need to learn from the start again. Thanks. –  Felix Nov 13 '13 at 2:10
Do you think there's any faster approach? –  Felix Nov 13 '13 at 2:16
Since each cell from row 3 upwards has the form (2*r-1)*c you can skip lots of values for the case “c is a multiple of 2*«a previous row»-1)” for cell values below the maximum of that previous row. Maybe there’s a completely analytical solution but I didn’t dig deep enough into it to find out. –  Holger Nov 13 '13 at 11:05

Not an answer, but a hint: try using least common multiples.

For example, LCM(5,3)=15, and 15 is the first element in both rows 2 and 3. LCM(2,15)=30, and 30 is the first element in each of the first 3 rows.

You'll eventually get to a row r where the LCM of the first element of the first r rows is beyond 10,000,000, at which point no number shows up each of those rows.

share|improve this answer
I guess it would be a little slow if: for every number in every row n(n>2), you need to calculate the least common multiples starting from the first row and every row following until row n-1. Let me know if I am wrong. I am thinking my approach might be quite fast. Don't know if there is any faster approach. –  Felix Nov 13 '13 at 2:15
@Felix You don't need to calculate all those LCMs; LCM(1,2,3,4,...,n) = LCM(LCM(1,2,3,4,...,n-1), n). In other words after getting the LCM of the first r rows, the LCM of the first r+1 rows is one additional LCM operation. –  Dave Galvin Nov 13 '13 at 3:26
LCM(2,3)=6; LCM(2,3,5)=LCM(6,5)=30; LCM(2,3,5,7) = LCM(30,7)=210; LCM(2,3,5,7,9) = LCM(210,9)=630; etc... –  Dave Galvin Nov 13 '13 at 3:29
Ok..I got a better understanding of what you said. And I'll give a try to see if this approach is faster or not. Thanks for this hint. –  Felix Nov 13 '13 at 3:44

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