Maison >développement back-end >tutoriel php >常见基础算法笔记
一些常见的基础算法(未完待续)
<code>int partition(int left,int right,int arr[]) { int i = left; int j = right; int value = arr[left]; while (j > i) { //从右边j开始找到一个比value小的值 while (j > i && arr[j] >= value) j--; if (j > i) { arr[i] = arr[j]; i++; } //从左边i开始找到一个比value大的值 while (j > i && arr[i] i) { arr[j] = arr[i]; j--; } } //i=j时代表所有比value大的值都到了右边,比value小的到了左边 arr[i] = value; return i; } </code>
<code>void quickSort(int arr[], int left, int right) { if (left </code>
<code>include <stdio.h> //假设第i个节点的左右子树已经是最大堆,加入第 //i个节点后重新调整堆 void heapAdjust(int arr[], int i, int size) { int l = 2*i; int r = l+1; int max = i; if(iarr[max]) max = l; if(rarr[max]) max = r; if(max!=i){ arr[max] ^= arr[i]; arr[i] ^= arr[max]; arr[max] ^= arr[i]; //int temp = arr[i]; //arr[i] = arr[max]; //arr[max] = temp; heapAdjust(arr, max, size); } } } //建立最大堆 void buildHeap(int arr[], int heapsize) { int middle = heapsize/2; for(int i=middle;i>=1;i--) heapAdjust(arr,i,heapsize); } //堆排序 void heapSort(int arr[], int size) { buildHeap(arr,size); for(int i=size;i>=2;i--){ //arr[i] ^= arr[1]; //arr[1] ^= arr[i]; //arr[i] ^= arr[1]; arr[i] += arr[1]; arr[1] = arr[i]-arr[1]; arr[i] = arr[i]-arr[1]; heapAdjust(arr,1,i-1); } } void printArr(int arr[], int n) { int i = -1; while(i++<n-1 printf int main argc char arr printarr heapsort return></n-1></stdio.h></code>
<code>void insertSort() { int arr[10] = { 1, 34, 5, 6, 8, 12, 5, 9, 345, 0 }; int n = 10; cout = 0 && arr[j] > temp; j--) { arr[j + 1] = arr[j]; } //最后将最初的arr[i]值放到空出的位置 arr[j + 1] = temp; } for (int i = 0; i </code>
<code>void selectSort() { int arr[10] = { 1, 34, 5, 6, 8, 12, 5, 9, 345, 0 }; int n = 10; cout </code>
<code>#include <iostream> Queue q = new Queue(); void printBinaryTree(Node *n) { q.put(n); Node *next = NULL; while(NULL!=(next=q.get())) { if(next->val!=NULL) std::coutvalue; if(next->left!=NULL) q.put(next->left); if(next->right!=NULL) q.put(next->right); } } </iostream></code>
<code>void postorder(Node root) { if(root == NULL) return; postorder(root->left); postorder(root->right); visit(root); } void postOrder(Node root) { Stack stack = new Stack(); Node tmp = root; while(tmp!=NULL || !stack.empty()) { if(tmp!=NULL) { stack.push(tmp,"left"); tmp = tmp->left; } else { s = stack.pop(); tmp = s.tmp; tag = s.tag; if(tag=="right") { visit(tmp); tmp = NULL; } else { stack.push(tmp,"right"); tmp = tmp->right; } } } } </code>
<code>//单链表反转 void reverse1(node **head) { node *temp; node *op; temp = *head; op = temp->next; (*head)->next = NULL; while(op) { //保存原始op的下一个 temp = op->next; //拆开链表 op->next = *head; //移动head *head = op; //移动op op = temp; } } void reverse2(node **head) { //使用栈先进后出 } //反向打印单链表 void reversePrint(node *head) { if (head->next != NULL) { reversePrint(head->next); printf("%d\n",head->next->data); } } </code>
<code>function cleanArray(arr){ var hash = {}; var len = arr.length; for (var i = 0; i </code>
<code>function permute(strpre, str) { if(str.length==0){ console.log(strpre); }else{ var l = str.length; for(var i=0;i<l permute str.slice></l></code>
<code>int binarySearch(int arr[], int l, int r, int k) { while(lk) r = m+1; else l = m-1; } return -1; } int binarySearch1(int arr[], int l, int r, int k) { if(r>=l){ int m = l+(r-l)/2; if(arr[m]==k) return m; if(arr[m]>k) binarySearch1(arr, l, m-1, k); else binarySearch1(arr, m+1, r, k); } return -1; } </code>
<code>#include <stdio.h> #include <string.h> void reverse1(char *s) { char *p1,*p2; char c; p1 = s; p2 = s+strlen(s)-1; while(p1<p2 c="*p1;" p1 p2-- void reverse2 char p2="s+strlen(s)-1;" while reverse3 reverse4 int tail if>1){ char c = *s; *s = *(s+tail-1); *(s+tail-1) = c; reverse4(s+1,tail-2); } } </p2></string.h></stdio.h></code>
<code>void copy(char *s, char *d) { while(*s!='\0'){ *d++ = *s++; } *d = '\0'; } </code>
以上就介绍了常见基础算法笔记,包括了方面的内容,希望对PHP教程有兴趣的朋友有所帮助。