用VC++制作-模拟时钟应用程序

c 模拟时钟课程设计一、教学目标本课程的学习目标主要包括知识目标、技能目标和情感态度价值观目标。

知识目标要求学生掌握C语言的基本语法、数据类型、运算符、控制结构等，了解模拟时钟的基本原理和设计方法。

技能目标要求学生能够运用C语言编写简单的模拟时钟程序，培养学生的编程能力和问题解决能力。

情感态度价值观目标培养学生的团队合作意识、创新精神和对计算机科学的兴趣。

二、教学内容教学内容主要包括C语言基础知识、模拟时钟的设计与实现。

详细的教学大纲如下：1.C语言基础知识：介绍C语言的基本语法、数据类型、运算符、控制结构等，为学生编写模拟时钟程序打下基础。

2.模拟时钟的设计与实现：讲解模拟时钟的基本原理，引导学生运用C语言编写模拟时钟程序，培养学生的编程能力和问题解决能力。

三、教学方法本课程采用讲授法、讨论法、案例分析法和实验法等多种教学方法，以激发学生的学习兴趣和主动性。

1.讲授法：通过讲解C语言基础知识和模拟时钟的设计原理，使学生掌握相关知识。

2.讨论法：学生进行小组讨论，分享学习心得和编程经验，提高学生的团队合作能力。

3.案例分析法：分析典型的模拟时钟程序案例，引导学生学会分析问题、解决问题。

4.实验法：让学生动手编写模拟时钟程序，培养学生的实际编程能力和操作技能。

四、教学资源本课程所需教学资源包括教材、参考书、多媒体资料和实验设备。

1.教材：选用权威、实用的C语言教材，为学生提供系统的学习资料。

2.参考书：提供相关的C语言编程参考书籍，丰富学生的知识储备。

3.多媒体资料：制作精美的PPT、教学视频等，增强课堂教学的趣味性和生动性。

4.实验设备：为学生提供充足的计算机设备，确保每位学生都能动手实践。

五、教学评估为了全面、客观地评估学生的学习成果，本课程采用多元化的评估方式。

评估内容包括平时表现、作业、考试等。

1.平时表现：通过观察学生在课堂上的参与程度、提问回答等情况，了解学生的学习态度和知识掌握程度。

电子钟设计c语言设计电子钟是一种使用数字或者模拟显示时间的时钟。

它通常使用数字显示屏或者液晶屏来显示时间。

电子钟的优势在于与传统机械钟相比，它更加准确、可靠、精准和方便。

通过使用c语言来设计电子钟可以使它更加智能化和强大。

我们知道，c语言是一种通用的高级编程语言，它非常适合用于系统编程和应用程序开发。

电子钟的设计需要运用c语言的数据结构、算法、指针和其他通用编程技术。

设计一个可靠的电子钟需要考虑到准确显示时间、时区调整、闹钟功能、定时器和更多的功能。

在设计电子钟时，我们首先需要考虑到选择合适的开发平台和硬件选型。

例如，我们可以使用Arduino或者Raspberry Pi 等开发板来设计电子钟。

这些开发板既能提供强大的计算能力，又可以提供足够的GPIO引脚和通信接口。

同时，我们还需要选择合适的时钟模块，例如DS1307、DS3231和DS1302等。

接下来，我们可以考虑设计程序框架。

设计程序框架需要考虑到用户需求，从而使程序有条不紊地进行。

我们可以设计菜单选项来满足用户需求，例如时钟显示、日期显示、温度显示等等。

此外，还可以考虑添加一些有趣的功能，例如给予经度和纬度计算日出日落时间以及天气预报等。

电子钟的时间显示通常使用RTC模块与单片机进行通信。

RTC模块可以提供秒、分、时、日、月、年等时间数据。

我们需要从RTC模块读取这些数据，并将它们转换成格式化的字符串进行显示。

我们还需要考虑到时区的调整，以便在不同时区下准确显示时间。

闹钟功能是电子钟的一个重要特性。

我们可以设计界面来设置闹钟时间和日期。

当闹钟响起时，电子钟可以触发警报并发出声音或声音和振动提醒。

我们还可以增加关闭闹钟的选项，以便用户可以在闹钟响起时快速关闭它。

另一个特色功能是定时器，它可以用来进行倒计时或计时操作。

我们可以使用按钮或者旋转编码器来设置定时器时间。

定时器可以在倒计时或计时完成时发出警报来通知用户，以便执行相应的操作。

最后，我们需要考虑到电子钟的可扩展性和灵活性。

用C语言写的一个PIC16F877的时闹钟程序单片机用16F877，主时钟用20MHz，用32768作定时时间。

可以实现2路定闹，每一路都可分别设置和开关，采用4x4键盘，16x2的字符型LCD显示。

连线在程序开头有说明。

程序的功能：（1）上电后LCD背光打开，并显示倒计时5秒，然后时钟开始工作。

（2）用模式键（*）切换模式，如显示时间、日期、闹钟1、闹钟2等，并且可以用上、下键控制加1、减1或是闹钟的On、Off。

（3）原程序有16个键，包括0~9数字键，可以直接输入要设置的时间值，但后来将数字键取消了，你仍然可以通过修改程序的部分注释恢复此功能。

（4）闹钟有2路，时间到后闹2分钟，可按任意键取消本次闹钟。

闹钟响时有2种音调，是用PIC的PWM实现的。

（5）按任意键可打开背光，1分钟后自动关闭背光。

（6）RA0~RA3为按键扫描输入，应接下拉电阻。

主程序// FileName: Main.c// MCU: Microchip PIC16F877// Tool: CCS-C compiler// Author: KingEDA, MSN:kingeda@, skype:kingeda, E-mail:kingeda@// Website: // Description:// A timer program// Ver 0.1: 2003-03-31, all clock function with date display, 2 way alarm.// Ver 0.2: 2003-05-05, (1) Alarm default is on,modify alarm1 time to 7:00:00,// and alarm2 to 13:30:00.// (2) Backlight will be enabled when alarming.// (3) Automatic adjust day(28,30,31).// (4) Automatic move cursor to next location when set item.// PIN Connection:// RC0~1 : 32768Hz crystal// RC2 : Buzzer// RC3 : LCD Back Light,drive a PNP BJT// RD0~RD7 : to LCD DB0~DB7// RA0~RA3 : keypad col in// RC4~RC7 : keypad line out// 7 8 9 #// 4 5 6 ↑// 1 2 3 ↓// 0 ←→*// RE0 : LCD RS// RE1 : LCD RW// RE2 : LCD E#include "my16f877.h"#device ICD=true//#fuses HS,NOWDT,NOPROTECT,PUT,BROWNOUT #use delay(clock = 24000000)//#use fast_io(C)#use fast_io(E)#define lcd_busy (lcd_read_addr()&0x80) == 0x80#define time_start_addr 0x80+0x04#define time_hourh_addr time_start_addr#define time_hourl_addr time_start_addr+1#define time_minuteh_addr time_start_addr+3#define time_minutel_addr time_start_addr+4#define time_secondh_addr time_start_addr+6#define time_secondl_addr time_start_addr+7#define key_0 0x11#define key_1 0x21#define key_2 0x22#define key_3 0x24#define key_4 0x41#define key_5 0x42#define key_6 0x44#define key_7 0x81#define key_8 0x82#define key_9 0x84#define key_left 0x12#define key_right 0x14#define key_up 0x48#define key_down 0x28#define key_mode 0x18#define key_cancel 0x88char StrPower1[] = " * Power on * ";char StrSetTime[] = " * Adjust time* ";char StrSetDate[] = " * Adjust date* ";char StrAlarm1[] = " * Set alarm 1* ";char StrAlarm2[] = " * Set alarm 2* ";unsigned char PORTC_MAP;#bit BackLightEn = PORTC_MAP.3unsigned char BackLightTimer;int1 led;#bit lcd_rs = PORTE.0#bit lcd_rw = PORTE.1#bit lcd_e = PORTE.2#byte lcd_bus = PORTD#byte lcd_dir = TRISD#define PWM_on 0x0c#define PWM_off 0x00#define PWM_period 200#define PWM_DC 100unsigned char lcd_addr;unsigned char KeyLine;unsigned char KeyOld;unsigned char KeyNew;struct mTime {unsigned char hourh; // hour,0~23unsigned char hourl;unsigned char minuteh; // minute,0~59unsigned char minutel;unsigned char secondh; // second,0~59unsigned char secondl;};struct mTime CurrentTime = {1,2,0,0,0,0};struct mTime AlarmTime1 = {0,7,0,0,0,0}; // 07:00:00 struct mTime AlarmTime2 = {1,3,3,0,0,0}; // 13:30:00 unsigned char AlarmStatus;#bit Alarm1Enable = AlarmStatus.0#bit Alarm2Enable = AlarmStatus.1#bit Alarm1Alarm = AlarmStatus.2#bit Alarm2Alarm = AlarmStatus.3unsigned char Alarm1Cnt; // alarm1 second count unsigned char Alarm2Cnt;unsigned char CurrentMode;#define mode_time 0#define mode_set_time 1#define mode_set_date 2#define mode_set_alarm1 3#define mode_set_alarm2 4unsigned char adjust_item;struct mDate {unsigned char year1; //unsigned char year2;unsigned char year3;unsigned char year4;unsigned char monthh;unsigned char monthl;unsigned char dayh;unsigned char dayl;};struct mDate CurrentDate = {2,0,0,3,0,1,0,1}; unsigned char *pStr;// ------------------------------------------------------- unsigned char lcd_read_addr(){unsigned char ch;lcd_dir = 0xff; // read from lcdlcd_rs = 0;lcd_rw = 1; // instlcd_e = 1;#asmnopnopnop#endasmch = lcd_bus;lcd_e = 0;lcd_dir = 0x00; // set write to lcdreturn ch;}// ------------------------------------------------------- unsigned char lcd_write_data(unsigned char ch) {while (lcd_busy){ restart_wdt(); }lcd_rs = 1; // datalcd_rw = 0; // writelcd_bus = ch; // write outlcd_e = 1;#asmnopnopnop#endasmlcd_e = 0;return 'Y';}// ------------------------------------------------------- unsigned char lcd_write_inst(unsigned char ch) {while (lcd_busy){ restart_wdt(); }lcd_rs = 0; // instlcd_rw = 0; // writelcd_bus = ch;lcd_e = 1;#asmnopnopnop#endasmlcd_e = 0;return 'Y';}// ------------------------------------------------------- unsigned char lcd_read_data(){unsigned char ch;while (lcd_busy){ restart_wdt(); }lcd_dir = 0xff; // read from lcdlcd_rs = 1; // datalcd_rw = 1; // readlcd_e = 1;#asmnopnopnop#endasmch = lcd_bus; // read inlcd_e = 0;lcd_dir = 0x00; // set write to lcdreturn ch;}// ------------------------------------------------------- void lcd_init(){unsigned char Tempch;lcd_addr = 0;delay_ms(100);Tempch = 0x38; // 1-line mode,5x8 dotslcd_write_inst(Tempch); // Function setTempch = 0x0f; // lcd on,cursor on,blink onlcd_write_inst(Tempch); // Display on/offTempch = 0x06; // Increment mode,Entire shift offlcd_write_inst(Tempch);Tempch = 0x01; // clear displaylcd_write_inst(Tempch);delay_ms(3);}// -------------------------------------------------------//#int_timer1//void timer1_interrupt(void)#int_ccp2void ccp2_interrupt(void){//TMR1H = 0x80;if (CurrentTime.secondl==9){CurrentTime.secondl=0;if (CurrentTime.secondh==5){CurrentTime.secondh=0;if (CurrentTime.minutel==9){CurrentTime.minutel=0;if (CurrentTime.minuteh==5){CurrentTime.minuteh=0;if (CurrentTime.hourl==9){CurrentTime.hourl=0;CurrentTime.hourh++;}else if((CurrentTime.hourl==3) && (CurrentTime.hourh==2)){CurrentTime.hourl=0;CurrentTime.hourh=0;if ((((CurrentDate.dayl == 8) || (CurrentDate.dayl == 9)) && (CurrentDate.dayh == 2) && (CurrentDate.monthl == 2) && (CurrentDate.monthh == 0)) ||((CurrentDate.dayl == 0) && (CurrentDate.dayh == 3) && ((((CurrentDate.monthl == 4) || (CurrentDate.monthl == 6)|| (CurrentDate.monthl == 9)) && (CurrentDate.monthh == 0)) || ((CurrentDate.monthl == 1) && (CurrentDate.monthh == 1)))) ||((CurrentDate.dayl == 1) && (CurrentDate.dayh == 3))){CurrentDate.dayl=1;CurrentDate.dayh=0;if ((CurrentDate.monthl == 2) && (CurrentDate.monthh == 1)){CurrentDate.monthl = 1;CurrentDate.monthh = 0;if (CurrentDate.year4 == 9){CurrentDate.year4 = 0;if (CurrentDate.year3 == 9){CurrentDate.year3 = 0;if (CurrentDate.year2 == 9){CurrentDate.year2 = 0;CurrentDate.year1++;}elseCurrentDate.year2++;}elseCurrentDate.year3++;}elseCurrentDate.year4++;}else if(CurrentDate.monthl == 9){CurrentDate.monthl = 0;CurrentDate.monthh++;}elseCurrentDate.monthl++;}else if(CurrentDate.dayl == 9){CurrentDate.dayl=0;CurrentDate.dayh++;}elseCurrentDate.dayl++;}elseCurrentTime.hourl++;}elseCurrentTime.minuteh++;}elseCurrentTime.minutel++;}elseCurrentTime.secondh++;}elseCurrentTime.secondl++;if ((Alarm1Alarm == false) & (Alarm2Alarm == false)){led = 0;CCP1CON = PWM_off;}else{if (led == 1){led = 0;PR2 = PWM_period; // set pwm periodCCPR1L = PWM_DC; // set pwm duty cycle//CCP1CON = PWM_on;}else{led = 1;PR2 = PWM_period/2; // set pwm periodCCPR1L = PWM_DC/2; // set pwm duty cycle//CCP1CON = PWM_off;}}Alarm1Cnt++;Alarm2Cnt++;if (BackLightEn == 0)if (((BackLightTimer++)>=60) & (Alarm1Alarm == false) & (Alarm1Alarm == false))BackLightEn = 1; // disable backlight PORTC = PORTC_MAP;//TMR1IF = 0;//PIR1 = PIR2 = 0x00;CCP2IF = 0;}// ------------------------------------------------------- unsigned char get_key(void){unsigned char key_in,tmp;TRISC = 0x03;KeyLine = 0xf0;PORTC = KeyLine | PORTC_MAP;#asmnopnopnop#endasmif ((PORTA & 0x0f) != 0){tmp = 0x10;for (KeyLine = tmp;KeyLine!=0;KeyLine = tmp){PORTC = KeyLine | PORTC_MAP;tmp = KeyLine <<1;#asmnopnopnop#endasmkey_in = PORTA & 0x0f;if (key_in != 0){return (key_in | KeyLine);}}return 0;}elsereturn 0;}// -------------------------------------------------------void set_mode(void){if (CurrentMode == mode_set_alarm2)CurrentMode = mode_time;else{CurrentMode++;adjust_item = 0;}lcd_write_inst(0x01); // clear LCD displaylcd_write_inst(time_start_addr); // set LCD line1 if (CurrentMode == mode_set_time){lcd_write_data(CurrentTime.hourh + '0');lcd_write_data(CurrentTime.hourl + '0');lcd_write_data(':');lcd_write_data(CurrentTime.minuteh + '0');lcd_write_data(CurrentTime.minutel + '0');lcd_write_data(':');lcd_write_data(CurrentTime.secondh + '0');lcd_write_data(CurrentTime.secondl + '0');pStr = StrSetTime;}else if(CurrentMode == mode_set_date){lcd_write_data(CurrentDate.year1 + '0');lcd_write_data(CurrentDate.year2 + '0');lcd_write_data(CurrentDate.year3 + '0');lcd_write_data(CurrentDate.year4 + '0');lcd_write_data('/');lcd_write_data(CurrentDate.monthh + '0');lcd_write_data(CurrentDate.monthl + '0');lcd_write_data('/');lcd_write_data(CurrentDate.dayh + '0');lcd_write_data(CurrentDate.dayl + '0');pStr = StrSetDate;}else if(CurrentMode == mode_set_alarm1){lcd_write_data(AlarmTime1.hourh + '0');lcd_write_data(AlarmTime1.hourl + '0');lcd_write_data(':');lcd_write_data(AlarmTime1.minuteh + '0');lcd_write_data(AlarmTime1.minutel + '0');lcd_write_data(':');lcd_write_data(AlarmTime1.secondh + '0');lcd_write_data(AlarmTime1.secondl + '0');lcd_write_data(' ');lcd_write_data('O');if (Alarm1Enable){lcd_write_data('n');}else{lcd_write_data('f');lcd_write_data('f');}pStr = StrAlarm1;Alarm1Cnt =0;}else if(CurrentMode == mode_set_alarm2) {lcd_write_data(AlarmTime2.hourh + '0');lcd_write_data(AlarmTime2.hourl + '0');lcd_write_data(':');lcd_write_data(AlarmTime2.minuteh + '0');lcd_write_data(AlarmTime2.minutel + '0');lcd_write_data(':');lcd_write_data(AlarmTime2.secondh + '0');lcd_write_data(AlarmTime2.secondl + '0');lcd_write_data(' ');lcd_write_data('O');if (Alarm2Enable){lcd_write_data('n');}else{lcd_write_data('f');lcd_write_data('f');}pStr = StrAlarm2;Alarm2Cnt = 0;}lcd_write_inst(0xc0); // set LCD line2 if (CurrentMode != mode_time){for (;*pStr!=0;pStr++){ // write hint messagelcd_write_data(*pStr);}lcd_write_inst(0x0f); // LCD cursor onlcd_write_inst(time_start_addr); // move cursor to start }else // time mode,write date to second line{lcd_write_inst(0x0c); // LCD sursor off/* lcd_write_inst(0xc0 + 3); // set date start address lcd_write_data(CurrentDate.year1 + '0');lcd_write_data(CurrentDate.year2 + '0');lcd_write_data(CurrentDate.year3 + '0');lcd_write_data(CurrentDate.year4 + '0');lcd_write_data('/');lcd_write_data(CurrentDate.monthh + '0');lcd_write_data(CurrentDate.monthl + '0');lcd_write_data('/');lcd_write_data(CurrentDate.dayh + '0');lcd_write_data(CurrentDate.dayl + '0');*/ }if (CurrentMode == mode_set_time){lcd_write_inst(time_start_addr); // move cursor to start }else if (CurrentMode == mode_set_date){lcd_write_inst(time_start_addr); // move cursor to start }else if (CurrentMode == mode_set_alarm1){lcd_write_inst(time_secondl_addr+3);adjust_item = 6;}else if (CurrentMode == mode_set_alarm2){lcd_write_inst(time_secondl_addr+3);adjust_item = 6;}else{lcd_write_inst(0x0c); // LCD cursor off}}// ------------------------------------------------------- void set_date(void){if (adjust_item == 0) // adjust year{if ((KeyNew >=0) & (KeyNew <= 9)){CurrentDate.year1 = KeyNew;lcd_write_data(CurrentDate.year1 + '0');//lcd_write_inst(time_start_addr);adjust_item ++;}else if (KeyNew == key_left){adjust_item = 7;lcd_write_inst(time_start_addr + 9);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 1);}}else if(adjust_item == 1){if ((KeyNew >=0) & (KeyNew <= 9)){CurrentDate.year2 = KeyNew;lcd_write_data(CurrentDate.year2 + '0');//lcd_write_inst(time_start_addr + 1);adjust_item ++;}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 0);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 2);}}else if(adjust_item == 2){if ((KeyNew >=0) & (KeyNew <= 9)){CurrentDate.year3 = KeyNew;lcd_write_data(CurrentDate.year3 + '0');//lcd_write_inst(time_start_addr + 2);adjust_item ++;}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 1);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 3);}}else if(adjust_item == 3){if ((KeyNew >=0) & (KeyNew <= 9)){CurrentDate.year4 = KeyNew;lcd_write_data(CurrentDate.year4 + '0');//lcd_write_inst(time_start_addr + 3);adjust_item ++;lcd_write_inst(time_start_addr + 5);}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 2);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 5);}}else if(adjust_item == 4)if (((CurrentDate.monthl>2) & (KeyNew == 0)) | ((CurrentDate.monthl == 0) & (KeyNew == 1))| (((CurrentDate.monthl == 1) | (CurrentDate.monthl == 2)) & (KeyNew <2))) {CurrentDate.monthh = KeyNew;lcd_write_data(CurrentDate.monthh + '0');//lcd_write_inst(time_start_addr + 5);adjust_item ++;}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 3);}else if (KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 6);}}else if(adjust_item == 5){if (((CurrentDate.monthh == 3) & (KeyNew <2)) | ((CurrentDate.monthh != 3) & (KeyNew >=0) & (KeyNew <=9))){CurrentDate.monthl = KeyNew;lcd_write_data(CurrentDate.monthl + '0');//lcd_write_inst(time_start_addr + 6);adjust_item ++;lcd_write_inst(time_start_addr + 8);}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 5);}else if (KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 8);}}else if(adjust_item == 6)if (((CurrentDate.dayl>1) & ((KeyNew == 1) | (KeyNew == 2))) | ((CurrentDate.dayl == 0) & (KeyNew >0) & (KeyNew<4))| ((CurrentDate.dayl == 1) & (KeyNew <4))){CurrentDate.dayh = KeyNew;lcd_write_data(CurrentDate.dayh + '0');//lcd_write_inst(time_start_addr + 8);adjust_item ++;}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 6);}else if (KeyNew == key_right){adjust_item ++;lcd_write_inst(time_start_addr + 9);}}else if(adjust_item == 7){if (((CurrentDate.dayh == 3) & (KeyNew <2)) | ((CurrentDate.dayh != 3) & (KeyNew >=0) & (KeyNew <=9))){CurrentDate.dayl = KeyNew;lcd_write_data(CurrentDate.dayl + '0');//lcd_write_inst(time_start_addr + 9);adjust_item ++;lcd_write_inst(time_start_addr + 0);}else if (KeyNew == key_left){adjust_item --;lcd_write_inst(time_start_addr + 8);}else if (KeyNew == key_right){adjust_item = 0;lcd_write_inst(time_start_addr + 0);}}}// -------------------------------------------------------void set_time(void){if (adjust_item == 0) // set hourh{if (((CurrentTime.hourl <4) & (KeyNew < 3)) | ((CurrentTime.hourl >3) & (KeyNew <2))){CurrentTime.hourh = KeyNew;lcd_write_data(CurrentTime.hourh + '0'); // refresh hourh//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item = 5;lcd_write_inst(time_secondl_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_hourl_addr);}}else if (adjust_item == 1) // set hourl{if (((CurrentTime.hourh == 2) & (KeyNew < 4)) | ((CurrentTime.hourh < 2) & (KeyNew <=9))){CurrentTime.hourl = KeyNew;lcd_write_data(CurrentTime.hourl + '0'); // refresh hourl//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minuteh_addr);}}else if (adjust_item == 2) // set minuteh{if (KeyNew <6){CurrentTime.minuteh = KeyNew;lcd_write_data(CurrentTime.minuteh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourl_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minutel_addr);}}else if (adjust_item == 3) // set minutel{if ((KeyNew >=0) & (KeyNew <=9)){CurrentTime.minutel = KeyNew;lcd_write_data(CurrentTime.minutel + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondh_addr);}}else if (adjust_item == 4) // set secondh{if (KeyNew <6){CurrentTime.secondh = KeyNew;lcd_write_data(CurrentTime.secondh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;&nb, sp; lcd_write_inst(time_minutel_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondl_addr);}}else if (adjust_item == 5) // set secondl{if ((KeyNew >=0) & (KeyNew <=9)){CurrentTime.secondl = KeyNew;lcd_write_data(CurrentTime.secondl + '0');//lcd_write_inst(0x10); // move cursor backadjust_item = 0;lcd_write_inst(time_hourh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_right){adjust_item = 0;lcd_write_inst(time_hourh_addr);}}}// -------------------------------------------------------void set_alarm1(void){if (adjust_item == 0) // set hourh{if (((AlarmTime1.hourl <4) & (KeyNew < 3)) | ((AlarmTime1.hourl >3) & (KeyNew <2))){AlarmTime1.hourh = KeyNew;lcd_write_data(AlarmTime1.hourh + '0'); // refresh hourh//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item = 6;lcd_write_inst(time_secondl_addr + 3);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_hourl_addr);}}else if (adjust_item == 1) // set hourl{if (((AlarmTime1.hourh == 2) & (KeyNew < 4)) | ((AlarmTime1.hourh < 2) & (KeyNew <=9))){AlarmTime1.hourl = KeyNew;lcd_write_data(AlarmTime1.hourl + '0'); // refresh hourl//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minuteh_addr);}}else if (adjust_item == 2) // set minuteh{if (KeyNew <6){AlarmTime1.minuteh = KeyNew;lcd_write_data(AlarmTime1.minuteh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourl_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minutel_addr);}}else if (adjust_item == 3) // set minutel{if ((KeyNew >=0) & (KeyNew <=9)){AlarmTime1.minutel = KeyNew;lcd_write_data(AlarmTime1.minutel + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondh_addr);}}else if (adjust_item == 4) // set secondh{if (KeyNew <6){AlarmTime1.secondh = KeyNew;lcd_write_data(AlarmTime1.secondh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_minutel_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondl_addr);}}else if (adjust_item == 5) // set secondl{if ((KeyNew >=0) & (KeyNew <=9)){AlarmTime1.secondl = KeyNew;lcd_write_data(AlarmTime1.secondl + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_secondl_addr+3);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondl_addr+3);}}else if (adjust_item == 6) // set on/off{if ((KeyNew == key_up) | (KeyNew == key_down)){if (Alarm1Enable){Alarm1Enable =false; // disable alarm1lcd_write_data('f');lcd_write_data('f');}else{Alarm1Enable =true; // enable alarm1lcd_write_data('n');lcd_write_data(' ');}//lcd_write_inst(time_secondl_addr+3);adjust_item = 0;lcd_write_inst(time_hourh_addr);Alarm1Cnt = 0;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_secondl_addr);}else if(KeyNew == key_right){adjust_item = 0;lcd_write_inst(time_hourh_addr);}}}// -------------------------------------------------------void set_alarm2(void){if (adjust_item == 0) // set hourh{if (((AlarmTime2.hourl <4) & (KeyNew < 3)) | ((AlarmTime2.hourl >3) & (KeyNew <2))){AlarmTime2.hourh = KeyNew;lcd_write_data(AlarmTime2.hourh + '0'); // refresh hourh//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item = 6;lcd_write_inst(time_secondl_addr+3);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_hourl_addr);}}else if (adjust_item == 1) // set hourl{if (((AlarmTime2.hourh == 2) & (KeyNew < 4)) | ((AlarmTime2.hourh < 2) & (KeyNew <=9))){AlarmTime2.hourl = KeyNew;lcd_write_data(AlarmTime2.hourl + '0'); // refresh hourl//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minuteh_addr);}}else if (adjust_item == 2) // set minuteh{if (KeyNew <6){AlarmTime2.minuteh = KeyNew;lcd_write_data(AlarmTime2.minuteh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_hourl_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_minutel_addr);}}else if (adjust_item == 3) // set minutel{if ((KeyNew >=0) & (KeyNew <=9)){AlarmTime2.minutel = KeyNew;lcd_write_data(AlarmTime2.minutel + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_minuteh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondh_addr);}}else if (adjust_item == 4) // set secondh{if (KeyNew <6){AlarmTime2.secondh = KeyNew;lcd_write_data(AlarmTime2.secondh + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_minutel_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondl_addr);}}else if (adjust_item == 5) // set secondl{if ((KeyNew >=0) & (KeyNew <=9)){AlarmTime2.secondl = KeyNew;lcd_write_data(AlarmTime2.secondl + '0');//lcd_write_inst(0x10); // move cursor backadjust_item ++;lcd_write_inst(time_secondl_addr+3);}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_secondh_addr);}else if(KeyNew == key_right){adjust_item ++;lcd_write_inst(time_secondl_addr+3);}}else if (adjust_item == 6) // set on/off{if ((KeyNew == key_up) | (KeyNew == key_down)){if (Alarm2Enable){Alarm2Enable =false; // disable alarm2lcd_write_data('f');lcd_write_data('f');}else{Alarm2Enable =true; // enable alarm2lcd_write_data('n');lcd_write_data(' ');}//lcd_write_inst(time_secondl_addr+3);adjust_item = 0;lcd_write_inst(time_hourh_addr);Alarm2Cnt = 0;}else if(KeyNew == key_left){adjust_item --;lcd_write_inst(time_secondl_addr);}else if(KeyNew == key_right){adjust_item = 0;lcd_write_inst(time_hourh_addr);}}}// -------------------------------------------------------void main(void){unsigned char cnt;TRISC = 0x03; // PORTC.3 drive led,low activePORTC_MAP = 0x00;led = 0;BackLightEn = 0;BackLightTimer = 0;PORTC = PORTC_MAP;TRISA = 0xff; // low half byte as keyscan inTRISE = 0x00;ADCON0 = 0x00;ADCON1 = 0x06; // all digital I/Oslcd_init();INTCON = 0x00;lcd_write_inst(0x80); // set lcd ddram addressfor (pStr = StrPower1;*pStr!=0;pStr++){lcd_write_data(*pStr);}lcd_write_inst(0x0c); // LCD cursor offPIR1 = PIR2 = 0x00;T1CON = 0x0f; // T1CON: -- T1CKPS1 T1CPS0 T1OSCEN /T1SYNC TMR1CS TMR1ONTMR1H = 0x80;TMR1L = 0x00;。

目录摘要： (1)1.C#语言简介 (2)2.实现目标 (2)3.主要方法 (3)4.实验过程中的难点 (3)5.实验过程 (4)6.总结 (6)附录（源程序）： (7)用C#实现时钟模拟用C#实现时钟模拟摘要：我们日常生活中有各种各样的时钟。

随着计算机的普及和计算机科学的飞速发展人们开始越来越多的利用计算机解决实际问题,开发一个易于查看的时钟有较大的现实意义。

VisualStudiio 2008是面向Windows Vista、Office 2007、Web 2.0的下一代开发工具，其强大的兼容性以及高速处理能力帮助程序人员轻松应对研究、测试、开发过程中的各种问题。

对于Web，ASP NET AJAX 及其他新技术使开发人员能够迅速创建更高效、交互式更强和更个性化的新一代Web 体验。

本文基于VisualStudiio 2008采用C#语言，应用GDI+应用程序编程借口（API）实现时钟模拟。

关键词：C#开发时钟模拟GDI+ VisualStudio20081.C#语言简介C#是一种安全的、稳定的、简单的、优雅的，由C和C++衍生出来的面向对象的编程语言。

它在继承C和C++强大功能的同时去掉了一些它们的复杂特性（例如没有宏以及不允许多重继承）。

C#综合了VB简单的可视化操作和C++的高运行效率，以其强大的操作能力、优雅的语法风格、创新的语言特性和便捷的面向组件编程的支持成为.NET开发的首选语言。

C#旨在设计成为一种“简单、现代、通用”，以及面向对象的程序设计语言，此种语言的实现，应提供对于以下软件工程要素的支持：强类型检查、数组维度检查、未初始化的变量引用检测、自动垃圾收集（Garbage Collection，指一种自动内存释放技术）。

软件必须做到强大、持久，并具有较强的编程生产力。

此种语言为在分布式环境中的开发提供适用的组件开发应用。

为使程序员容易迁移到这种语言，源代码的可移植性十分重要，尤其是对于那些已熟悉C和C++的程序员而言。

利用C#语言实现小闹钟
1
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参考图文：
1.利用express+socket.io搭建简易版聊天室
2.利用C#语言实现计算器
3.利用C#语言实现展览厅
微信公众平台通常让大家的知识碎片化，而我们要做的事情就是在“学习方法论”、“软件研发过程”、“机器学习”、“数学建模”以及基于这些技能的实践方面提供长期的系统化的知识，陪伴大家耐心地去打磨这几项技能，让其转化为真正解决问题的武器。

使用C#模拟时钟表的一种简单制作方法PointF center=new PointF(s_pinlen+3,s_pinlen+3);//中心点位置SolidBrush sb=new SolidBrush(Color.Black);//时钟圆心的刷子除上述变量声明外,时钟表功能编写子方法,方法名为:AngleToPos和myClock,方法AngleToPos是根据角度和百分比计算出一个点的坐标函数,代码如下:PointF AngleToPos(int angle,float percent){PointF pos=new PointF();double radian=angle*Math.PI/180;pos.Y=center.Y-s_pinlen*percent*(float)Math.Sin(radian);pos.X=center.X+s_pinlen*percent*(float)Math.Cos(radian);return pos;}方法myClock主要是绘制时钟表的中心位置、秒针、分针及时针的结束位置。

代码如下: Pen pDisk=new Pen(Color.Orange,3);//时钟背景的笔Pen pScale=new Pen(Color.Coral);//刻度的笔Graphics myGraphics=pictureBox1.CreateGraphics();myGraphics.Clear(Color.White);Pen myPen=new Pen(Color.Black,2);Point CPoint=new Point(s_pinlen,s_pinlen);Point SPoint=new Point((int)(CPoint.X+(Math.Sin(6*s*Math.PI/180))* s_pinlen),(int)(CPoint.Y-(Math.Cos(6*s*Math.PI/180))*s_pinlen));Point MPoint=new Point((int)(CPoint.X+(Math.Sin(6*m*Math.PI/180))* m_pinlen),(int)(CPoint.Y-(Math.Cos(6*m*Math.PI/180))*m_pinlen));Point HPoint=new Point((int)(CPoint.X+(Math.Sin(((30*h)+(m/2))*Ma th.PI/180))*h_pinlen),(int)(CPoint.Y-(Math.Cos(((30*h)+(m/2))*Mat h.PI/180))*h_pinlen));myGraphics.FillEllipse(sb,center.X-8,center.Y-7,14,14);myGraphics.DrawLine(myPen,CPoint,SPoint);myPen=new Pen(Color.Blue,4);。

VC++课程设计--基于MFC的模拟时钟计科2011级VC++课程设计实验报告题目：基于MFC的模拟时钟班级：计科1104班学号：1108030429姓名：张宝龙日期：2014/1/7课程设计实验报告1、题目：基于MFC的模拟时钟2、编程要点：制作时钟的过程中，首先给时钟创建一个基类CClockElement,还需要派生类CClockBackground,CClockHourHand,CClockMin Hand,CClockSecHand分别控制时钟的背景，时钟的时针，分针，秒针。

3、实现过程：（1）工程、风格、控件与变量表本时钟是基本对话框的时钟，界面简约，便于使用。

控件控件名控件类型Clock 静态文本变量表变量名类型m_crMain COLORREF m_crOther COLORREFm_tmCur CTimem_rcRegion CRectm_nRadius intm_clockBK CClockBackground m_clockHour CClockHourHandm_clockMin CClockMinHandm_clockSec CClockSecHandm_rcClient CRectm_Clock CClockEX（2）主要功能程序代码CClockBackground::CClockBackground() {//为时钟背景定义默认的颜色设置m_crMain=RGB(0,0,255);m_crOther=RGB(0,255,0);}void CClockBackground::Draw(CDC *pDC) {//设置准备环境CPenpenMain(PS_SOLID,1,m_crMain),penOther(PS _SOLID,1,m_crOther);CBrushbrMain(m_crMain),brOther(m_crOther);CPen*pOldPen=pDC->SelectObject(&penOther);CBrush*pOldBrush=pDC->SelectObject(&brMain);CPointptCenter=m_rcRegion.CenterPoint();int nRadius=m_nRadius-8;for(int i=0;i<60;i++){CPoint ptEnd=ptCenter;ptEnd.Offset((int)(nRadius*sin(2*PI*(i% 60)/60)),(int)(-nRadius*cos(2*PI*(i%60)/60)));CRect rcDot(-2,-2,2,2);rcDot.OffsetRect(ptEnd);pDC->Ellipse(rcDot);}//绘制12个小方框,表示12个正点pDC->SelectObject(&penMain);pOldBrush=pDC->SelectObject(&brOth er);for(i=0;i<12;i++){CPoint ptEnd=ptCenter;double fRadian=2*PI*(i%12)/12;ptEnd.Offset((int)(nRadius*sin(fRadian) ),(int)(-nRadius*cos(fRadian)));CRect rcDot(-3,-3,3,3);rcDot.OffsetRect(ptEnd);pDC->Rectangle(rcDot);}//huanyuan设备环境pDC->SelectObject(pOldPen);pDC->SelectObject(pOldBrush);}CClockHourHand::CClockHourHand(){//定义默认颜色m_crMain=RGB(0,0,128);m_crOther=RGB(128,128,0);}void CClockHourHand::Draw(CDC *pDC){//设置准备环境CPenpenMain(PS_SOLID,1,m_crMain),penOthe r(PS_SOLID,1,m_crOther);CBrushbrMain(m_crMain),brOther(m_crOther);CPen*pOldPen=pDC->SelectObject(&penOther );CBrush*pOldBrush=pDC->SelectObject(&brMain);//确定当前指针的弧度intnTime=(m_tmCur.GetHour()%12)*3600;nTime+=m_tmCur.GetMinute()*60;nTime+=m_tmCur.GetSecond();doublefRadian=2*PI*nTime/3600/12;//确定绘制菱形指针所需的四个角的坐标CPoint ptDiamond[4];for(int i=0;i<4;i++){ptDiamond[i]=m_rcRegion.CenterPoin t();}int nRadius=m_nRadius/2;ptDiamond[0].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/20;ptDiamond[1].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/10;ptDiamond[2].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/20;ptDiamond[3].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));//绘制菱形时钟pDC->Polygon(ptDiamond,4);//huanyuan设备环境pDC->SelectObject(pOldPen);pDC->SelectObject(pOldBrush);}CClockMinHand::CClockMinHand(){//定义默认颜色m_crMain=RGB(0,255,100);m_crOther=RGB(128,128,0);}void CClockMinHand::Draw(CDC *pDC){//设置准备环境CPenpenMain(PS_SOLID,1,m_crMain),penOthe r(PS_SOLID,1,m_crOther);CBrushbrMain(m_crMain),brOther(m_crOther);CPen*pOldPen=pDC->SelectObject(&penOther );CBrush*pOldBrush=pDC->SelectObject(&brMain );//确定分针所在位置的弧度intnTime=m_tmCur.GetMinute()*60;nTime+=m_tmCur.GetSecond();double fRadian=2*PI*nTime/3600;//确定绘制菱形指针所需的四个角的坐标CPoint ptDiamond[4];for(int i=0;i<4;i++){ptDiamond[i]=m_rcRegion.CenterPoin t();}int nRadius=m_nRadius/4;ptDiamond[0].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/20;ptDiamond[1].Offset((int)(nRadius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/10;ptDiamond[2].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));fRadian+=0.5*PI;nRadius=m_nRadius/20;ptDiamond[3].Offset((int)(nRad ius*sin(fRadian)),(int)(-nRadius*cos (fRadian)));//绘制菱形时钟pDC->Polygon(ptDiamond,4);//huanyuan设备环境pDC->SelectObject(pOldPen);pDC->SelectObject(pOldBrush);}CClockSecHand::CClockSecHand(){//设定秒针的默认颜色m_crMain=RGB(0,200,200);m_crOther=RGB(0,200,200);}void CClockSecHand::Draw(CDC *pDC){int nTime=m_tmCur.GetSecond();CPointptStart=m_rcRegion.CenterPoint();CPoint ptEnd=ptStart;int nRadius=m_nRadius-10;ptEnd.Offset((int)(nRadius*sin (2*PI*nTime/60)),(int)(-nRadius*cos( 2*PI*nTime/60)));CPenpenMain(PS_SOLID,1,m_crMain);CPen*pOldPen=pDC->SelectObject (&penMain);pDC->MoveTo(ptStart);pDC->LineTo(ptEnd);pDC->SelectObject(pOldPen);}void CClockEX::OnTimer(UINT nIDEvent){Invalidate(FALSE);CStatic::OnTimer(nIDEvent);}void CClockEX::OnSize(UINT nType, int cx, int cy){CStatic::OnSize(nType, cx, cy);GetClientRect(m_rcClient);//获取当前客户区m_clockBK.SetRegion(m_rcClient );m_clockHour.SetRegion(m_rcClie nt);m_clockMin.SetRegion(m_rcClien t);m_clockSec.SetRegion(m_rcClien t);}void CClockEX::OnPaint(){CPaintDC dc(this); // device context for painting//实现双缓冲绘图---防止屏幕闪烁CDC dcMem;dcMem.CreateCompatibleDC(&dc);CBitmap bmp;bmp.CreateCompatibleBitmap(&dc ,m_rcClient.Width(),m_rcClient.Heigh t());dcMem.SelectObject(&bmp);DrawClock(&dcMem); //绘制时钟dc.BitBlt(0,0,m_rcClient.Width (),m_rcClient.Height(),&dcMem,0,0,SR CCOPY);}voidCClockEX::PreSubclassWindow(){GetClientRect(m_rcClient);//获取当前客户区m_clockBK.SetRegion(m_rcClient );m_clockHour.SetRegion(m_rcClie nt);m_clockMin.SetRegion(m_rcClien t);m_clockSec.SetRegion(m_rcClien t);SetTimer(1,100,NULL);CStatic::PreSubclassWindow();}void CClockEX::DrawClock(CDC *pDC){CTimetmCur=CTime::GetCurrentTime();m_clockBK.SetTime(tmCur);m_clockHour.SetTime(tmCur);m_clockMin.SetTime(tmCur);m_clockSec.SetTime(tmCur);m_clockBK.Draw(pDC);m_clockHour.Draw(pDC);m_clockMin.Draw(pDC);m_clockSec.Draw(pDC);}CClockElement::CClockElement(){m_nRadius=0;m_crMain=RGB(255,0,0);m_crOther=RGB(128,128,0);}voidCClockElement::SetRegion(LPRECT lprcRect){m_rcRegion=lprcRect;m_nRadius=m_rcRegion.Width()/2;if(m_rcRegion.Width()>m_rcRegion.Hei ght()){m_nRadius=m_rcRegion.Height()/2;}}void CClockElement::SetTime(const CTime &tmCur){m_tmCur=tmCur;}voidCClockElement::SetColor(COLORREF crMain,COLORREF crOther){m_crMain=crMain;m_crOther=crOther;}4、运行效果展示：5、自我总结：该小程序是基于MFC中的对话框的，主要针对画笔和画刷的用法，没有涉及连接数据库和算法，完全是为了本学期所学知识的运用，由于时间紧，所以没能深入的探索MFC的奥妙，不过通过本次设计，我对老师课堂上所讲述的关于该类型的知识，有了进一步的了解和掌握，初步的熟悉了画笔和画刷的简单用法，还巩固了MFC类中的基本操作，例如，添加新类，新变量，创建新的对话框，添加控件等方面的知识。