IOS面试大全之常见算法_IOS

这篇文字给大家分享了IOS 面试中熟悉常见的算法，下面来一起看看吧。

1、对以下一组数据进行降序排序（冒泡排序）。“24，17，85，13，9，54，76，45，5，63”

									int main(int argc, char *argv[]) {

									  int array[10] = {24, 17, 85, 13, 9, 54, 76, 45, 5, 63};

									  int num = sizeof(array)/sizeof(int);

									  for(int i = 0; i < num-1; i++) {

									    for(int j = 0; j < num - 1 - i; j++) {

									      if(array[j] < array[j+1]) {

									        int tmp = array[j];

									        array[j] = array[j+1];

									        array[j+1] = tmp;

									      }

									    }

									  }

									  for(int i = 0; i < num; i++) {

									    printf("%d", array[i]);

									    if(i == num-1) {

									      printf("\n");

									    }

									    else {

									      printf(" ");

									    }

									  }

									}

2、对以下一组数据进行升序排序（选择排序）。“86, 37, 56, 29, 92, 73, 15, 63, 30, 8”

									void sort(int a[],int n)

									{

									  int i, j, index;

									  for(i = 0; i < n - 1; i++) {

									    index = i;

									    for(j = i + 1; j < n; j++) {

									      if(a[index] > a[j]) {

									        index = j;

									      }

									    }

									    if(index != i) {

									      int temp = a[i];

									      a[i] = a[index];

									      a[index] = temp;

									    }

									  }

									}

									int main(int argc, const char * argv[]) {

									  int numArr[10] = {86, 37, 56, 29, 92, 73, 15, 63, 30, 8};

									  sort(numArr, 10);

									  for (int i = 0; i < 10; i++) {

									    printf("%d, ", numArr[i]);

									  }

									  printf("\n");

									  return 0;

									}

3、快速排序算法

									void sort(int *a, int left, int right) {

									if(left >= right) {

									return ;

									}

									int i = left;

									int j = right;

									int key = a[left];

									while (i < j) {

									while (i < j && key >= a[j]) {

									j--;

									}

									a[i] = a[j];

									while (i < j && key <= a[i]) {

									  i++;

									}

									a[j] = a[i];

									}

									a[i] = key;

									sort(a, left, i-1);

									sort(a, i+1, right);

									}

4、归并排序

									void merge(int sourceArr[], int tempArr[], int startIndex, int midIndex, int endIndex) {

									  int i = startIndex;

									  int j = midIndex + 1;

									  int k = startIndex;

									  while (i != midIndex + 1 && j != endIndex + 1) {

									    if (sourceArr[i] >= sourceArr[j]) {

									      tempArr[k++] = sourceArr[j++];

									    } else {

									      tempArr[k++] = sourceArr[i++];

									    }

									  }

									  while (i != midIndex + 1) {

									    tempArr[k++] = sourceArr[i++];

									  }

									  while (j != endIndex + 1) {

									    tempArr[k++] = sourceArr[j++];

									  }

									  for (i = startIndex; i <= endIndex; i++) {

									    sourceArr[i] = tempArr[i];

									  }

									}

									void sort(int souceArr[], int tempArr[], int startIndex, int endIndex) {

									  int midIndex;

									  if (startIndex < endIndex) {

									    midIndex = (startIndex + endIndex) / 2;

									    sort(souceArr, tempArr, startIndex, midIndex);

									    sort(souceArr, tempArr, midIndex + 1, endIndex);

									    merge(souceArr, tempArr, startIndex, midIndex, endIndex);

									  }

									}

									int main(int argc, const char * argv[]) {

									  int numArr[10] = {86, 37, 56, 29, 92, 73, 15, 63, 30, 8};

									  int tempArr[10];

									  sort(numArr, tempArr, 0, 9);

									  for (int i = 0; i < 10; i++) {

									    printf("%d, ", numArr[i]);

									  }

									  printf("\n");

									  return 0;

									}

5、实现二分查找算法（编程语言不限）

									int bsearchWithoutRecursion(int array[],int low,int high,int target) {

									while(low <= high) {

									int mid = (low + high) / 2;

									if(array[mid] > target)

									high = mid - 1;

									else if(array[mid] < target)

									low = mid + 1;

									else  //findthetarget

									return mid;

									}

									//the array does not contain the target

									return -1;

									}

									----------------------------------------

									递归实现

									int binary_search(const int arr[],int low,int high,int key)

									{

									int mid=low + (high - low) / 2;

									if(low > high)

									return -1;

									else{

									if(arr[mid] == key)

									return mid;

									else if(arr[mid] > key)

									return binary_search(arr, low, mid-1, key);

									else

									return binary_search(arr, mid+1, high, key);

									}

									}

6、如何实现链表翻转（链表逆序）？

思路：每次把第二个元素提到最前面来。

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									#include <stdio.h>

									#include <stdlib.h>

									typedef struct NODE {

									  struct NODE *next;

									  int num;

									}node;

									node *createLinkList(int length) {

									  if (length <= 0) {

									    return NULL;

									  }

									  node *head,*p,*q;

									  int number = 1;

									  head = (node *)malloc(sizeof(node));

									  head->num = 1;

									  head->next = head;

									  p = q = head;

									  while (++number <= length) {

									    p = (node *)malloc(sizeof(node));

									    p->num = number;

									    p->next = NULL;

									    q->next = p;

									    q = p;

									  }

									  return head;

									}

									void printLinkList(node *head) {

									  if (head == NULL) {

									    return;

									  }

									  node *p = head;

									  while (p) {

									    printf("%d ", p->num);

									    p = p -> next;

									  }

									  printf("\n");

									}

									node *reverseFunc1(node *head) {

									  if (head == NULL) {

									    return head;

									  }

									  node *p,*q;

									  p = head;

									  q = NULL;

									  while (p) {

									    node *pNext = p -> next;

									    p -> next = q;

									    q = p;

									    p = pNext;

									  }

									  return q;

									}

									int main(int argc, const char * argv[]) {

									  node *head = createLinkList(7);

									  if (head) {

									    printLinkList(head);

									    node *reHead = reverseFunc1(head);

									    printLinkList(reHead);

									    free(reHead);

									  }

									  free(head);

									  return 0;

									}

7、实现一个字符串“how are you”的逆序输出（编程语言不限）。如给定字符串为“hello world”,输出结果应当为“world hello”。

									int spliterFunc(char *p) {

									  char c[100][100];

									  int i = 0;

									  int j = 0;

									  while (*p != '\0') {

									    if (*p == ' ') {

									      i++;

									      j = 0;

									    } else {

									      c[i][j] = *p;

									      j++;

									    }

									    p++;

									  }

									  for (int k = i; k >= 0; k--) {

									    printf("%s", c[k]);

									    if (k > 0) {

									      printf(" ");

									    } else {

									      printf("\n");

									    }

									  }

									  return 0;

									}

8、给定一个字符串，输出本字符串中只出现一次并且最靠前的那个字符的位置？如“abaccddeeef”,字符是b,输出应该是2。

									char *strOutPut(char *);

									int compareDifferentChar(char, char *);

									int main(int argc, const char * argv[]) {

									  char *inputStr = "abaccddeeef";

									  char *outputStr = strOutPut(inputStr);

									  printf("%c \n", *outputStr);

									  return 0;

									}

									char *strOutPut(char *s) {

									  char str[100];

									  char *p = s;

									  int index = 0;

									  while (*s != '\0') {

									    if (compareDifferentChar(*s, p) == 1) {

									      str[index] = *s;

									      index++;

									    }

									    s++;

									  }

									  return &str;

									}

									int compareDifferentChar(char c, char *s) {

									  int i = 0;

									  while (*s != '\0' && i<= 1) {

									    if (*s == c) {

									      i++;

									    }

									    s++;

									  }

									  if (i == 1) {

									    return 1;

									  } else {

									    return 0;

									  }

									}

9、二叉树的先序遍历为FBACDEGH,中序遍历为：ABDCEFGH,请写出这个二叉树的后序遍历结果。

1	`ADECBHGF`

先序+中序遍历还原二叉树：先序遍历是：ABDEGCFH 中序遍历是：DBGEACHF

首先从先序得到第一个为A，就是二叉树的根，回到中序，可以将其分为三部分：

左子树的中序序列DBGE，根A，右子树的中序序列CHF

接着将左子树的序列回到先序可以得到B为根，这样回到左子树的中序再次将左子树分割为三部分：

左子树的左子树D，左子树的根B，左子树的右子树GE

同样地，可以得到右子树的根为C

类似地将右子树分割为根C，右子树的右子树HF，注意其左子树为空

如果只有一个就是叶子不用再进行了，刚才的GE和HF再次这样运作，就可以将二叉树还原了。

10、打印2-100之间的素数。

									int main(int argc, const char * argv[]) {

									  for (int i = 2; i < 100; i++) {

									    int r = isPrime(i);

									    if (r == 1) {

									      printf("%ld ", i);

									    }

									  }

									  return 0;

									}

									int isPrime(int n)

									{

									  int i, s;

									  for(i = 2; i <= sqrt(n); i++)

									    if(n % i == 0) return 0;

									  return 1;

									}

11、求两个整数的最大公约数。

									int gcd(int a, int b) {

									  int temp = 0;

									  if (a < b) {

									    temp = a;

									    a = b;

									    b = temp;

									  }

									  while (b != 0) {

									    temp = a % b;

									    a = b;

									    b = temp;

									  }

									  return a;

									}