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The question is here
http://uva.onlinejudge.org/index.php?option=onlinejudge&page=show_problem&problem=1400

My algorithm is below:

  1. Create a tree, and record the variable 'depth' for every node just for finding leaf node
  2. Run DFS from a leaf node. This DFS will find the longest path from current leaf
  3. Run DFS from a leaf node which found by first DFS
  4. Every DFS will record the longest length from current node, and the endnode
  5. The step 3 will find the longest length in this tree, and the node which record the half of longest length is the best root
  6. Run DFS from best root and find the worst node

My code is here

http://ideone.com/WeVD8g

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>

#define MAX 5000            /*  */

    typedef struct node Node;
    struct node {
            int id;
            int depth;
            int which;
            Node* next;
    };              /* ----------  end of struct Node  ---------- */


#define True 1          /*  */
#define False 0         /*  */
    short int visited[MAX+1];
    int maxHeight[MAX+1];


    /* 
     * ===  FUNCTION  ======================================================================
     *         Name:  dfsForLeaf
     *  Description:  
     * =====================================================================================
     */
            void
    dfsForLeaf ( Node tree[], int w, int n, int depth )
    {
            int i = 1;
            Node *pointer = NULL;
            visited[w] = True;
            maxHeight[w] = depth;
            for ( pointer = tree[w].next ; NULL != pointer ; pointer=pointer->next ) {
                    if ( !visited[ pointer->id ] ) {
                         dfsForLeaf(tree, pointer->id, n, depth+1);
                    }
            }

            return ;
    }       /* -----  end of function dfsForLeaf  ----- */

    /* 
     * ===  FUNCTION  ======================================================================
     *         Name:  findBestRoot
     *  Description:  
     * =====================================================================================
     */
            void
    findBestRoot ( Node tree[], int knownLeaf, int n )
    {
            int i = 1, j =0;
            int currentLeaf, bestNodeTop=0, worstNodeTop = 0;
            int maxLen = -1;
            int worstNode[MAX], bestNode[MAX];

                                            /* initial */
            memset(visited, False, sizeof(short int)*MAX);
            memset(maxHeight, 0, sizeof(int)*MAX);
            DFS(tree, knownLeaf, n);                /* for leaf node */


            currentLeaf = tree[knownLeaf].which;    /* the end node of longest path  */
            maxLen = -1;
            memset(visited, False, sizeof(short int)*MAX);
            memset(maxHeight, 0, sizeof(int)*MAX);
            DFS(tree, currentLeaf, n);              

            for ( i=1; i<=n; i++ ) {
                    if ( maxLen < maxHeight[i] ) {
                            maxLen = maxHeight[i];
                            currentLeaf = i;
                    }
            }

            if ( 0 == maxLen % 2 ) {                /* only one root node */
                    for ( i=1; i<=n ; i++ ) {
                            if ( maxLen/2 == maxHeight[i]  ){
                                    bestNode[bestNodeTop] = i;
                                    bestNodeTop += 1;
                            }
                    }
                    memset(visited, False, sizeof(short int)*MAX);
                    memset(maxHeight, 0, sizeof(int)*MAX);
                    dfsForLeaf(tree, bestNode[0], n, 0);

                    for ( i=1; i<=n ; i++ ) {
                            if ( maxLen/2 == maxHeight[i]  ){
                                    worstNode[worstNodeTop] = i;
                                    worstNodeTop += 1;
                            }
                    }
            }
            else {                                  /* two best nodes */
                    for ( i=1; i<=n ; i++ ) {
                            if ( maxLen/2 == maxHeight[i] || (maxLen/2)+1 == maxHeight[i] ) {
                                    bestNode[bestNodeTop] = i;
                                    bestNodeTop += 1;
                            }
                    }

                    for ( i=bestNodeTop-1; i>=0 ; i-- ) { /* get the worst nodes */
                            memset(visited, False, sizeof(short int)*MAX);
                            memset(maxHeight, 0, sizeof(int)*MAX);
                            dfsForLeaf(tree, bestNode[i], n, 0);

                            for ( j=1; j<=n ; j++ ) {
                                    if ( 1+(maxLen/2) == maxHeight[j]  ){
                                            worstNode[worstNodeTop] = j;
                                            worstNodeTop += 1;
                                    }
                            }
                    }

            }

            printf ( "Best Roots  :" );
            for ( i=0; i<bestNodeTop ; i++ ) {
                    printf ( " %d", bestNode[i] );
            }

            printf ( "\nWorst Roots :" );
            for ( i=0; i<worstNodeTop ; i++ ) {
                    printf ( " %d", worstNode[i] );
            }
            return ;
    }       /* -----  end of function findBestRoot  ----- */

    /* 
     * ===  FUNCTION  ======================================================================
     *         Name:  DFS
     *  Description:  
     * =====================================================================================
     */
            int
    DFS ( Node tree[], int w, int n )
    {
            int i = 1, max=-1;
            Node *pointer = NULL;
            visited[w] = True;
            for ( pointer = tree[w].next ; NULL != pointer ; pointer=pointer->next ) {
                    if ( !visited[ pointer->id ] ) {
                            i = DFS(tree, pointer->id, n);
                            if ( max < i ) {        /* the endpoint of longer path */
                                    max = i;
                                    tree[w].which = tree[pointer->id].which;
                            }
                    }
            }
            maxHeight[w] += ( max+1 );

            if ( 0 == maxHeight[w] )
                tree[w].which = w;
            return maxHeight[w];
    }       /* -----  end of function DFS  ----- */
    /* 
     * ===  FUNCTION  ======================================================================
     *         Name:  main
     *  Description:  
     * =====================================================================================
     */
            int
    main ( int argc, char *argv[] )
    {
            int i = 0, j = 0;                       /* counter */
            int n = 0, t = 0, k = 0;                /* temp variable */
            int rootId = 0;
            int knownleaf = 0;
            Node nodeList[MAX+1];
            Node *temp = NULL, *head=NULL, *tail=NULL;          /* temp variable */

            while ( EOF != scanf("%d", &n) ) {      /* total nodes */

                    for ( i = 1; i <= n ; i++ ) {
                            head = temp = NULL;
                            nodeList[i].depth = 0;
                            scanf ( "%d", &t );     /* neighbor amounts */
                            for ( j=0; j < t ; j++ ) {
                                    scanf ( "%d", &k );
                                    if ( NULL == head  ) {
                                            head = (Node*)malloc(sizeof(Node));
                                            head->id = k;
                                            head->depth = 0;
                                            head->which = -1;
                                            tail = head;
                                    }
                                    else {
                                            temp = (Node*)malloc(sizeof(Node));
                                            temp->id = k;
                                            temp->next = NULL;
                                            temp->depth = 0;
                                            head->which = -1;
                                            tail->next = temp;
                                            tail = temp;
                                    }
                                    nodeList[i].depth += 1;
                            }
                            nodeList[i].next = head;
                    }
                                                    /* initial */
                    memset(visited, False, sizeof(short int)*MAX);
                    for ( i=1; i<=n ; i++ )
                            maxHeight[i] =  0;


                    for ( i=1; i<=n ;i++ ) {        /* find a leaf node and go DFS from him */
                            if ( 1 == nodeList[i].depth ) {
                                    knownleaf = i;
                                    break;
                            }
                    }

                    findBestRoot( nodeList, knownleaf, n);
            }

            return EXIT_SUCCESS;
    }               /* ----------  end of function main  ---------- */

Can anyone tell me what's wrong here?

share|improve this question
    
What are you expecting as output? What do you get as output? How have you tried debugging it? Where are the printing functions and calls that allow you to determine whether you've found plausible answers given the input? Your code is not very readable; it is very deeply indented, and while it is mostly consistent, it is not completely consistent. –  Jonathan Leffler Nov 17 '13 at 16:20
    
Incidentally, it produces the correct answer on the test data specified in the question, but doesn't include a newline at the end of the list of worst roots. That could be sufficient to make it fail. –  Jonathan Leffler Nov 17 '13 at 16:47

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