C语言求向量和的两则问题解答分享_C/C++

求一个向量的任何连续子向量的最大和

比如向量(31,-41,59,26,-53,58,97,-93,-23,84);
最大和是从59到97即为187

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									#include<stdio.h>

									#include<stdlib.h>

									//两者的最大值

									int max( int x, int y );

									//三者的最大值

									int max2( int x, int y, int z );

									//最原始的算法，复杂度为T(n)=O(n*n)

									int oringinal( int v[], int len );

									//原始基础上变体版,复杂度为T(n)=O(n*n)

									int oringinal_ex( int v[], int len );

									//分治法,复杂度为T(n)=O(n*log(n))

									/*

									 *分治法的思想是：将原数组分成两部分，要求的最大值

									 *要么在左边这部分里面，要么在右边这部分里面

									 *要么就在左右相交的交界处

									 */

									int divAndCon( int v[], int low, int high );

									//扫描法,复杂度为T(n)=O(n)

									int scan(int v[], int len);

									void main()

									{

									     int i = 0;

									     int v[] = {31,-41,59,26,-53,58,97,-93,-23,84};

									     int len = 0;

									     int result;

									     len = sizeof(v) / sizeof(int);

									     printf("oringinal datas:\n");

									     for( i = 0; i < len; i++ )

									     {

									       printf("%d\t",v[i]);

									     }

									     printf("\n");

									     //最原始的算法

									     result = oringinal(v,len);

									     printf("oringinal(v,len):%d\n",result);

									     //最原始变体的算法

									     result = oringinal_ex(v,len);

									     printf("oringinal_ex(v,len):%d\n",result);

									     //分治法

									     result = divAndCon(v,0,len-1);

									     printf("divAndCon(v,0,len):%d\n",result);

									     //扫描法

									     result = scan(v,len);

									     printf("scan(v,len):%d\n",result);

									}

									//两者的最大值

									int max( int x, int y )

									{

									     if( x < y )

									     {

									        x = y;

									     }

									     return x;

									}

									//三者的最大值

									int max2( int x, int y, int z )

									{

									     if( x < y )

									     {

									       x = y;

									     }

									     if( x < z )

									     {

									       x = z;

									     }

									     return x;

									}

									//最原始的算法，复杂度为T(n)=O(n*n)

									int oringinal( int v[], int len )

									{

									     int maxsofar = 0;

									     int i;

									     int j;

									     int sum = 0;

									     //通过双层循环逐步扫描，通过max( sum, maxsofar)获得当前最大值

									     for( i = 0; i < len; i++ )

									     {

									       sum = 0;

									       for( j = i; j < len; j++ )

									       {

									         sum += v[j];

									         maxsofar = max( sum, maxsofar );

									        }

									     }

									     return maxsofar;

									}

									//原始基础上变体版,复杂度为T(n)=O(n*n)

									int oringinal_ex( int v[], int len )

									{

									     int i = 0;

									     int j = 0;

									     int sum = 0;

									     int maxsofar = 0;

									     int *cumarr = ( int * )malloc( len * sizeof(int) );

									    for( i = 0; i < len; i++ )

									    {

									       if( i == 0 )

									       {

									         cumarr[0] = v[i];

									       }

									       else

									       {

									         cumarr[i] = cumarr[i-1] + v[i];

									       }

									     }

									    for( i = 0; i < len; i++ )

									      for( j = i; j < len; j++ )

									      {

									        if( i == 0 )

									        {

									           sum = cumarr[i];

									         }

									         else

									        {

									           sum = cumarr[j] - cumarr[i-1];

									         } 

									        maxsofar = max(maxsofar,sum);

									      }

									      return maxsofar;

									}

									//分治法,复杂度为T(n)=O(n*log(n))

									int divAndCon( int v[], int low, int high )

									{

									    int mid = 0;

									    int lmax = 0;

									    int rmax = 0;

									    int sum = 0;

									    int i = 0;

									    if( low > high )

									    {

									      return 0;

									    }

									    if( low == high )

									    {

									      return max(0,v[low]);

									    }

									    mid = ( low + high ) / 2;

									    lmax = sum = 0;

									    for( i = mid; i >= low; i-- )

									    {

									       sum += v[i];

									       lmax = max(lmax,sum);

									    }

									    rmax = sum = 0;

									    for( i = mid + 1; i <= high; i++ )

									    {

									      sum +=v[i];

									      rmax = max(rmax,sum);

									    }

									    return max2(lmax + rmax,divAndCon(v,low,mid),divAndCon(v,mid+1,high));

									}

									//扫描法,复杂度为T(n)=O(n)

									int scan(int v[], int len)

									{

									     int maxsofar = 0;

									     int maxendinghere = 0;

									     int i = 0;

									     for( i =0; i < len; i++ )

									     {

									       maxendinghere = max(maxendinghere + v[i],0);

									       maxsofar = max(maxsofar,maxendinghere);

									     }

									     return maxsofar;

									}

C语言求向量和的两则问题解答分享

求一个向量的任何连续最接近0的子向量的和

比如向量(31,-41,59,26,-53,58,97,-93,-23,84);
最大和是从97到-93即为4

									#include<stdio.h>

									#include<math.h>

									//返回最接近0的数

									int closeZero( int x, int y );

									//最原始的算法，复杂度为T(n)=O(n*n)

									int oringinal( int v[], int len );

									void main()

									{

									     int i = 0;

									     int v[] = {31,-41,59,26,-53,58,97,-93,-23,84};

									     int len = 0;

									     int result;

									     len = sizeof(v) / sizeof(int);

									     printf("oringinal datas:\n");

									     for( i = 0; i < len; i++ )

									    {

									      printf("%d\t",v[i]);

									    }

									    printf("\n");

									    //最原始的算法

									    result = oringinal(v,len);

									    printf("oringinal(v,len):%d\n",result);

									}

									//返回最接近0的数

									int closeZero( int x, int y )

									{

									     if( abs(x) > abs(y) )

									     {

									       x = y;

									     }

									     return x;

									}

									//最原始的算法，复杂度为T(n)=O(n*n)

									int oringinal( int v[], int len )

									{

									     int sofar = v[0];

									     int i;

									     int j;

									     int sum = 0;

									     for( i = 0; i < len; i++ )

									     {

									       sum = 0;

									       for( j = i; j < len; j++ )

									       {

									         sum += v[j];

									         sofar = closeZero( sum, sofar );

									       }

									     } 

									     return sofar;

									}