POJ 2418 Hardwood Species( AVL-Tree )

时间:2023-03-08 15:42:20

#include <stdio.h>

#include <stdlib.h>

#include <math.h>

#include <string.h>

typedef struct AVLTree{

    char name[31];

    int nCount;

    int nHeight;

    struct AVLTree* pLeft;

    struct AVLTree* pRight;

}AVLTree;

int Max( int a, int b );

int Height( AVLTree* pNode );

AVLTree* Insert( char* s, AVLTree* pNode );

AVLTree* LLRotate( AVLTree* pNode );

AVLTree* RRRotate( AVLTree* pNode );

AVLTree* LRRotate( AVLTree* pNode );

AVLTree* RLRotate( AVLTree* pNode );

void PrintTree( AVLTree* pNode );

int n = 0;

int main(){

    char s[31];

    AVLTree* pRoot = NULL;

    while( gets( s ) != NULL ){

        pRoot = Insert( s, pRoot );

        n++;

    }

    PrintTree( pRoot );

    return 0;

}

int Max( int a, int b ){

    return ( a > b ) ? a : b;

}

int Height( AVLTree* pNode ){

    if( pNode == NULL )

        return -1;

    return pNode->nHeight;

}

AVLTree* Insert( char* s, AVLTree* pNode ){

    if( pNode == NULL ){

        pNode          = ( AVLTree* ) malloc( sizeof( AVLTree ) );

        strcpy( pNode->name, s );

        pNode->nCount  = 1;

        pNode->nHeight = 0;

        pNode->pLeft   = NULL;

        pNode->pRight  = NULL;

    }

    else if( strcmp( s, pNode->name ) == 0 ){

        pNode->nCount++;

    }

    else if( strcmp( s, pNode->name ) < 0 ){

        pNode->pLeft = Insert( s, pNode->pLeft );

        if( Height( pNode->pLeft ) - Height( pNode->pRight ) == 2 ){

            if( strcmp( s, pNode->pLeft->name ) < 0 ){

                pNode = LLRotate( pNode );

            }

            else{

                pNode = LRRotate( pNode );

            }

        }

    }

    else if( strcmp( s, pNode->name ) > 0 ){

        pNode->pRight = Insert( s, pNode->pRight );

        if( Height( pNode->pRight ) - Height( pNode->pLeft ) == 2 ){

            if( strcmp( s, pNode->pRight->name ) > 0 ){

                pNode = RRRotate( pNode );

            }

            else{

                pNode = RLRotate( pNode );

            }

        }

    }

    pNode->nHeight = Max( Height( pNode->pLeft ), Height( pNode->pRight ) ) + 1;

    return pNode;

}

AVLTree* LLRotate( AVLTree* pNode ){

    AVLTree* pNodeLeft = pNode->pLeft;

    pNode->pLeft       = pNodeLeft->pRight;

    pNodeLeft->pRight  = pNode;

    pNode->nHeight     = Max( Height( pNode->pLeft ),     Height( pNode->pRight ) ) + 1;

    pNodeLeft->nHeight = Max( Height( pNodeLeft->pLeft ), pNode->nHeight ) + 1;

    return pNodeLeft;

}

AVLTree* RRRotate( AVLTree* pNode ){

    AVLTree* pNodeRight = pNode->pRight;

    pNode->pRight       = pNodeRight->pLeft;

    pNodeRight->pLeft   = pNode;

    pNode->nHeight      = Max( Height( pNode->pLeft ),       Height( pNode->pRight ) ) + 1;

    pNodeRight->nHeight = Max( Height( pNodeRight->pRight ), pNode->nHeight ) + 1;

    return pNodeRight;

}

AVLTree* LRRotate( AVLTree* pNode ){

    pNode->pLeft = RRRotate( pNode->pLeft );

    return LLRotate( pNode );

}

AVLTree* RLRotate( AVLTree* pNode ){

    pNode->pRight = LLRotate( pNode->pRight );

    return RRRotate( pNode );

}

void PrintTree( AVLTree* pRoot ){

    if( pRoot == NULL )

        return;

    PrintTree( pRoot->pLeft );

    printf( "%s %.4f\n", pRoot->name, ( ( double )( pRoot->nCount ) / ( double )n ) * 100 );

    PrintTree( pRoot->pRight );

}

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