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#include "string.h" #include "ctype.h" #include "stdio.h" search(char pd[]) {FILE *fp; int time=0,i=0,j=0,add[80],k=0,m; char *ch, str[900]; m=strlen(pd); if((fp=fopen("haha.txt","r"))==NULL) { printf("Cannot open this file\n"); exit(0); } for(;!feof(fp);i++) { str[i]=fgetc(fp); if(tolower(str[i])==tolower(pd[k])) {k++; if(k==m) if(!isalpha(i-m)&&!isalpha((str[i++]=fgetc(fp)))) { time++; add[j]=i-m+1; j++; k=0; } else k=0; } } if(time) { printf("The time is:%d\n",time); printf("The adders is:\n"); for(i=0;i
標簽: 查詢學會少年宮
上傳時間: 2016-12-29
上傳用戶:767483511
#include "string.h" #include "ctype.h" #include "stdio.h" search(char pd[]) {FILE *fp; int time=0,i=0,j=0,add[80],k=0,m; char *ch, str[900]; m=strlen(pd); if((fp=fopen("haha.txt","r"))==NULL) { printf("Cannot open this file\n"); exit(0); } for(;!feof(fp);i++) { str[i]=fgetc(fp); if(tolower(str[i])==tolower(pd[k])) {k++; if(k==m) if(!isalpha(i-m)&&!isalpha((str[i++]=fgetc(fp)))) { time++; add[j]=i-m+1; j++; k=0; } else k=0; } } if(time) { printf("The time is:%d\n",time); printf("The adders is:\n"); for(i=0;i<j;i++) printf("%5d",add[i]); if(i%5==0) printf("\n"); getch(); fclose(fp); } else printf("Sorry!Cannot find the word(^_^)"); } main() { char pd[10],choose='y'; int flag=1; while(flag) {printf("In put the word you want to seqarch:"); scanf("%s",pd); search(strlwr(pd)); printf("\nWould you want to continue?(Y/N):"); getchar(); scanf("%c",&choose); if((tolower(choose))=='n') flag=0; else flag=1; } printf("Thanks for your using!Bye-bye!\n"); getch(); }
標簽: 學生專用
上傳時間: 2016-12-29
上傳用戶:767483511
#define TM1638_STB PORTC_Bit1 #define TM1638_CLK PORTC_Bit2 #define TM1638_DIO_IN DDRC_Bit3=0 #define TM1638_DIO_OUT DDRC_Bit3=1 #define TM1638_DIO PORTC_Bit3 #define TM1638_DIO_DataIN PINC_Bit3 void TM1638_Write(unsigned char DATA) //寫數據函數 { unsigned char i; TM1638_DIO_OUT; for(i=0;i<8;i++) { TM1638_CLK=0; delay_us(1); if(DATA&0X01) TM1638_DIO=1; else TM1638_DIO=0; DATA>>=1; TM1638_CLK=1; delay_us(1); } } unsigned char TM1638_Read(void) //讀數據函數 { unsigned char i; unsigned char temp=0; TM1638_DIO_IN; for(i=0;i<8;i++) { temp>>=1; TM1638_CLK=0; delay_us(1); if(TM1638_DIO_DataIN==1) temp|=0x80; TM1638_CLK=1; delay_us(1); } return temp; }
上傳時間: 2017-01-12
上傳用戶:ds68
/*import java.util.Scanner; //主類 public class student122 { //主方法 public static void main(String[] args){ //定義7個元素的字符數組 String[] st = new String[7]; inputSt(st); //調用輸入方法 calculateSt(st); //調用計算方法 outputSt(st); //調用輸出方法 } //其他方法 //輸入方法 private static void inputSt(String st[]){ System.out.println("輸入學生的信息:"); System.out.println("學號 姓名 成績1,2,3"); //創建鍵盤輸入類 Scanner ss = new Scanner(System.in); for(int i=0; i<5; i++){ st[i] = ss.next(); //鍵盤輸入1個字符串 } } //計算方法 private static void calculateSt(String[] st){ int sum = 0; //總分賦初值 int ave = 0; //平均分賦初值 for(int i=2;i<5;i++) { /計總分,字符變換成整數后進行計算 sum += Integer.parseInt(st[i]); } ave = sum/3; //計算平均分 //整數變換成字符后保存到數組里 st[5] = String.valueOf(sum); st[6] = String.valueOf(ave); } //輸出方法 private static void outputSt(String[] st){ System.out.print("學號 姓名 "); //不換行 System.out.print("成績1 成績2 成績3 "); System.out.println("總分 平均分");//換行 //輸出學生信息 for(int i=0; i<7; i++){ //按格式輸出,小于6個字符,補充空格 System.out.printf("%6s", st[i]); } System.out.println(); //輸出換行 } }*/ import java.util.Scanner; public class student122 { public static void main(String[] args) { // TODO 自動生成的方法存根 String[][] st = new String[3][8]; inputSt(st); calculateSt(st); outputSt(st); } //輸入方法 private static void inputSt(String st[][]) { System.out.println("輸入學生信息:"); System.out.println("班級 學號 姓名 成績:數學 物理 化學"); //創建鍵盤輸入類 Scanner ss = new Scanner(System.in); for(int j = 0; j < 3; j++) { for(int i = 0; i < 6; i++) { st[j][i] = ss.next(); } } } //輸出方法 private static void outputSt(String st[][]) { System.out.println("序號 班級 學號 姓名 成績:數學 物理 化學 總分 平均分"); //輸出學生信息 for(int j = 0; j < 3; j++) { System.out.print(j+1 + ":"); for(int i = 0; i < 8; i++) { System.out.printf("%6s", st[j][i]); } System.out.println(); } } //計算方法 private static void calculateSt(String[][] st) { int sum1 = 0; int sum2 = 0; int sum3 = 0; int ave1 = 0; int ave2 = 0; int ave3 = 0; for(int i = 3; i < 6; i++) { sum1 += Integer.parseInt(st[0][i]); } ave1 = sum1/3; for(int i = 3; i < 6; i++) { sum2 += Integer.parseInt(st[1][i]); } ave2 = sum2/3; for(int i = 3; i < 6; i++) { sum3 += Integer.parseInt(st[2][i]); } ave3 = sum3/3; st[0][6] = String.valueOf(sum1); st[1][6] = String.valueOf(sum2); st[2][6] = String.valueOf(sum3); st[0][7] = String.valueOf(ave1); st[1][7] = String.valueOf(ave2); st[2][7] = String.valueOf(ave3); } }
上傳時間: 2017-03-17
上傳用戶:simple
1.Describe a Θ(n lg n)-time algorithm that, given a set S of n integers and another integer x, determines whether or not there exist two elements in S whose sum is exactly x. (Implement exercise 2.3-7.) #include<stdio.h> #include<stdlib.h> void merge(int arr[],int low,int mid,int high){ int i,k; int *tmp=(int*)malloc((high-low+1)*sizeof(int)); int left_low=low; int left_high=mid; int right_low=mid+1; int right_high=high; for(k=0;left_low<=left_high&&right_low<=right_high;k++) { if(arr[left_low]<=arr[right_low]){ tmp[k]=arr[left_low++]; } else{ tmp[k]=arr[right_low++]; } } if(left_low<=left_high){ for(i=left_low;i<=left_high;i++){ tmp[k++]=arr[i]; } } if(right_low<=right_high){ for(i=right_low;i<=right_high;i++) tmp[k++]=arr[i]; } for(i=0;i<high-low+1;i++) arr[low+i]=tmp[i]; } void merge_sort(int a[],int p,int r){ int q; if(p<r){ q=(p+r)/2; merge_sort(a,p,q); merge_sort(a,q+1,r); merge(a,p,q,r); } } int main(){ int a[8]={3,5,8,6,4,1,1}; int i,j; int x=10; merge_sort(a,0,6); printf("after Merging-Sort:\n"); for(i=0;i<7;i++){ printf("%d",a[i]); } printf("\n"); i=0;j=6; do{ if(a[i]+a[j]==x){ printf("exist"); break; } if(a[i]+a[j]>x) j--; if(a[i]+a[j]<x) i++; }while(i<=j); if(i>j) printf("not exist"); system("pause"); return 0; }
上傳時間: 2017-04-01
上傳用戶:糖兒水嘻嘻
以后再也不用擔心寫爬蟲ip被封,不用擔心沒錢買代理ip的煩惱了 在使用python寫爬蟲時候,你會遇到所要爬取的網站有反爬取技術比如用同一個IP反復爬取同一個網頁,很可能會被封。如何有效的解決這個問題呢?我們可以使用代理ip,來設置代理ip池。 現在教大家一個可獲取大量免費有效快速的代理ip方法,我們訪問西刺免費代理ip網址 這里面提供了許多代理ip,但是我們嘗試過后會發現并不是每一個都是有效的。所以我們現在所要做的就是從里面提供的篩選出有效快速穩定的ip。 以下介紹的免費獲取代理ip池的方法: 優點:免費、數量多、有效、速度快 缺點:需要定期篩選 主要思路: 從網址上爬取ip地址并存儲 驗證ip是否能使用-(隨機訪問網址判斷響應碼) 格式化ip地址 代碼如下: 1.導入包 import requests from lxml import etree import time 1 2 3 2.獲取西刺免費代理ip網址上的代理ip def get_all_proxy(): url = 'http://www.xicidaili.com/nn/1' headers = { 'User-Agent': 'Mozilla/5.0 (Windows NT 6.1; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/68.0.3440.106 Safari/537.36', } response = requests.get(url, headers=headers) html_ele = etree.HTML(response.text) ip_eles = html_ele.xpath('//table[@id="ip_list"]/tr/td[2]/text()') port_ele = html_ele.xpath('//table[@id="ip_list"]/tr/td[3]/text()') proxy_list = [] for i in range(0,len(ip_eles)): proxy_str = 'http://' + ip_eles[i] + ':' + port_ele[i] proxy_list.append(proxy_str) return proxy_list 1 2 3 4 5 6 7 8 9 10 11 12 13 14 3.驗證獲取的ip def check_all_proxy(proxy_list): valid_proxy_list = [] for proxy in proxy_list: url = 'http://www.baidu.com/' proxy_dict = { 'http': proxy } try: start_time = time.time() response = requests.get(url, proxies=proxy_dict, timeout=5) if response.status_code == 200: end_time = time.time() print('代理可用:' + proxy) print('耗時:' + str(end_time - start_time)) valid_proxy_list.append(proxy) else: print('代理超時') except: print('代理不可用--------------->'+proxy) return valid_proxy_list 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 4.輸出獲取ip池 if __name__ == '__main__': proxy_list = get_all_proxy() valid_proxy_list = check_all_proxy(proxy_list) print('--'*30) print(valid_proxy_list) 1 2 3 4 5 技術能力有限歡迎提出意見,保證積極向上不斷學習 ———————————————— 版權聲明:本文為CSDN博主「彬小二」的原創文章,遵循 CC 4.0 BY-SA 版權協議,轉載請附上原文出處鏈接及本聲明。 原文鏈接:https://blog.csdn.net/qq_39884947/article/details/86609930
上傳時間: 2019-11-15
上傳用戶:fygwz1982
%========================開始提取加噪信號的各類特征值================================ for n=1:1:50; m=n*Ns; x=(n-1)*Ns; for i=x+1:m; %提取加噪信號'signal_with_noise=y+noise'的前256個元素,抽取50次 y0(i)=signal_with_noise(i); end Y=fft(y0); %對調制信號進行快速傅里葉算法(離散) y1=hilbert(y0) ; %調制信號實部的解析式 factor=0; %開始求零中心歸一化瞬時幅度譜密度的最大值gamma_max for i=x+1:m; factor=factor+y0(i); end ms=factor/(m-x); an_i=y0./ms; acn_i=an_i-1; end gamma_max=max(fft(acn_i.*acn_i))/Ns
上傳時間: 2020-04-07
上傳用戶:如拷貝般復制
%========================開始提取加噪信號的各類特征值================================ for n=1:1:50; m=n*Ns; x=(n-1)*Ns; for i=x+1:m; %提取加噪信號'signal_with_noise=y+noise'的前256個元素,抽取50次 y0(i)=signal_with_noise(i); end Y=fft(y0); %對調制信號進行快速傅里葉算法(離散) y1=hilbert(y0) ; %調制信號實部的解析式 factor=0; %開始求零中心歸一化瞬時幅度譜密度的最大值gamma_max for i=x+1:m; factor=factor+y0(i); end ms=factor/(m-x); an_i=y0./ms; acn_i=an_i-1; end gamma_max=max(fft(acn_i.*acn_i))/Ns
上傳時間: 2020-04-07
上傳用戶:如拷貝般復制
Without conceding a blemish in the first edition, I think I had best come clean and admit that I embarked on a second edition largely to adopt a more geometric approach to the detection of signals in white Gaussian noise. Equally rigorous, yet more intuitive, this approach is not only student-friendly, but also extends more easily to the detection problem with random parameters and to the radar problem
標簽: Communication Foundation Digital in
上傳時間: 2020-05-26
上傳用戶:shancjb
YoumayaskwhyIwrotethisbook.Therearemany,manypersonalreasonsaswithanyauthor I suppose. The first two reasons and probably the most important are my love of flying and my love of radio engineering. This may sound rather dull but I love flying in any machine be it balloon, glider, propeller aircraft, microlight through to airline jets and the experience of it. The more I do it the more I feel I understand it.
標簽: Communication Aeronautical Systems Radio
上傳時間: 2020-05-26
上傳用戶:shancjb
