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如何使用无源蜂鸣器谱曲啊???就比如给一张音乐乐谱,然后怎么才能用蜂鸣器放出来?怎么编程?类似音调,一个音的长度等等是如何控制的?可能还要补补音乐的知识,哪位大神点拨一下小弟,万分感激啊。一点要详细讲解一下,三言两语我听不懂啊。。。。。多谢了多谢了。。。
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5个回答
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这个网上应该有很多啊,应该是通多DA输出不同的电压来控制的。
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程序范例可以点主界面上的“关于”按钮后就能找到,但是代码也不全,需要加入对音乐程序的调用代码,其它范例里也写的很清楚了,只需要调用Play函数就行了,其调用格式如下:
Play(乐曲名,调号,升降八度,演奏速度); 经过实践,此函数的的后三个参数分别设为0,2和350时演奏出的音乐比较符合“原味”,下面给出本站的入门型51实验板结合此工具作的音乐程序: //51单片机播放音乐库文件 /************************************************************************** SOUND PLAY FOR 51MCU COPYRIGHT (c) 2005 BY JJJ. -- ALL RIGHTS RESERVED -- File Name: SoundPlay.h Author: Jiang Jian Jun Created: 2005/5/16 Modified: NO Revision: 1.0 *******************************************************************************/ /*说明************************************************************************** 曲谱存贮格式 unsigned char code MusicName{音高,音长,音高,音长...., 0,0}; 末尾:0,0 表示结束(Important) 音高由三位数字组成: 个位是表示 1~7 这七个音符 十位是表示音符所在的音区:1-低音,2-中音,3-高音; 百位表示这个音符是否要升半音: 0-不升,1-升半音。 音长最多由三位数字组成: 个位表示音符的时值,其对应关系是: |数值(n): |0 |1 |2 |3 | 4 | 5 | 6 |几分音符: |1 |2 |4 |8 |16 |32 |64 音符=2^n 十位表示音符的演奏效果(0-2): 0-普通,1-连音,2-顿音 百位是符点位: 0-无符点,1-有符点 调用演奏子程序的格式 Play(乐曲名,调号,升降八度,演奏速度); |乐曲名 : 要播放的乐曲指针,结尾以(0,0)结束; |调号(0-11) : 是指乐曲升多少个半音演奏; |升降八度(1-3) : 1:降八度, 2:不升不降, 3:升八度; |演奏速度(1-12000): 值越大速度越快; ***************************************************************************/ #ifndef __SOUNDPLAY_H_REVISION_FIRST__ #define __SOUNDPLAY_H_REVISION_FIRST__ #include //************************************************************************** #define SYSTEM_OSC 11059200//12000000 //定义晶振频率12000000HZ #define SOUND_SPACE 4/5 //定义普通音符演奏的长度分率,//每4分音符间隔 ***it BeepIO = P3^5; //定义输出管脚 unsigned int code FreTab[12] = { 262,277,294,311,330,349,369,392,415,440,466,494 }; //原始频率表 unsigned char code SignTab[7] = { 0,2,4,5,7,9,11 }; //1~7在频率表中的位置 unsigned char code LengthTab[7]= { 1,2,4,8,16,32,64 }; unsigned char Sound_Temp_TH0,Sound_Temp_TL0; //音符定时器初值暂存 unsigned char Sound_Temp_TH1,Sound_Temp_TL1; //音长定时器初值暂存 //************************************************************************** void InitialSound(void) { BeepIO = 1; Sound_Temp_TH1 = (65535-(1/1200)*SYSTEM_OSC)/256; // 计算TL1应装入的初值 (10ms的初装值) Sound_Temp_TL1 = (65535-(1/1200)*SYSTEM_OSC)%256; // 计算TH1应装入的初值 TH1 = Sound_Temp_TH1; TL1 = Sound_Temp_TL1; TMOD |= 0x11; ET0 = 1; ET1 = 0; TR0 = 0; TR1 = 0; EA = 1; } void BeepTimer0(void) interrupt 1 //音符发生中断 { BeepIO = !BeepIO; TH0 = Sound_Temp_TH0; TL0 = Sound_Temp_TL0; } //************************************************************************** void Play(unsigned char *Sound,unsigned char Signature,unsigned Octachord,unsigned int Speed) { unsigned int NewFreTab[12]; //新的频率表 unsigned char i,j; unsigned int Point,LDiv,LDiv0,LDiv1,LDiv2,LDiv4,CurrentFre,Temp_T,SoundLength; unsigned char Tone,Length,SL,SH,SM,SLen,XG,FD; for(i=0;i<12;i++) // 根据调号及升降八度来生成新的频率表 { j = i + Signature; if(j > 11) { j = j-12; NewFreTab = FreTab[j]*2; } else NewFreTab = FreTab[j]; if(Octachord == 1) NewFreTab>>=2; else if(Octachord == 3) NewFreTab<<=2; } SoundLength = 0; while(Sound[SoundLength] != 0x00) //计算歌曲长度 { SoundLength+=2; } Point = 0; Tone = Sound[Point]; Length = Sound[Point+1]; // 读出第一个音符和它时时值 LDiv0 = 12000/Speed; // 算出1分音符的长度(几个10ms) LDiv4 = LDiv0/4; // 算出4分音符的长度 LDiv4 = LDiv4-LDiv4*SOUND_SPACE; // 普通音最长间隔标准 TR0 = 0; TR1 = 1; while(Point < SoundLength) { SL=Tone%10; //计算出音符 SM=Tone/10%10; //计算出高低音 SH=Tone/100; //计算出是否升半 CurrentFre = NewFreTab[SignTab[SL-1]+SH]; //查出对应音符的频率 if(SL!=0) { if (SM==1) CurrentFre >>= 2; //低音 if (SM==3) CurrentFre <<= 2; //高音 Temp_T = 65536-(50000/CurrentFre)*10/(12000000/SYSTEM_OSC);//计算计数器初值 Sound_Temp_TH0 = Temp_T/256; Sound_Temp_TL0 = Temp_T%256; TH0 = Sound_Temp_TH0; TL0 = Sound_Temp_TL0 + 12; //加12是对中断延时的补偿 } SLen=LengthTab[Length%10]; //算出是几分音符 XG=Length/10%10; //算出音符类型(0普通1连音2顿音) FD=Length/100; LDiv=LDiv0/SLen; //算出连音音符演奏的长度(多少个10ms) if (FD==1) LDiv=LDiv+LDiv/2; if(XG!=1) if(XG==0) //算出普通音符的演奏长度 if (SLen<=4) LDiv1=LDiv-LDiv4; else LDiv1=LDiv*SOUND_SPACE; else LDiv1=LDiv/2; //算出顿音的演奏长度 else LDiv1=LDiv; if(SL==0) LDiv1=0; LDiv2=LDiv-LDiv1; //算出不发音的长度 if (SL!=0) { TR0=1; for(i=LDiv1;i>0;i--) //发规定长度的音 { while(TF1==0); TH1 = Sound_Temp_TH1; TL1 = Sound_Temp_TL1; TF1=0; } } if(LDiv2!=0) { TR0=0; BeepIO=1; for(i=LDiv2;i>0;i--) //音符间的间隔 { while(TF1==0); TH1 = Sound_Temp_TH1; TL1 = Sound_Temp_TL1; TF1=0; } } Point+=2; Tone=Sound[Point]; Length=Sound[Point+1]; } BeepIO = 1; } //************************************************************************** #endif //挥着翅膀的女孩 unsigned char code Music_Girl[]={ 0x17,0x02, 0x17,0x03, 0x18,0x03, 0x19,0x02, 0x15,0x03, 0x16,0x03, 0x17,0x03, 0x17,0x03, 0x17,0x03, 0x18,0x03, 0x19,0x02, 0x16,0x03, 0x17,0x03, 0x18,0x02, 0x18,0x03, 0x17,0x03, 0x15,0x02, 0x18,0x03, 0x17,0x03, 0x18,0x02, 0x10,0x03, 0x15,0x03, 0x16,0x02, 0x15,0x03, 0x16,0x03, 0x17,0x02, 0x17,0x03, 0x18,0x03, 0x19,0x02, 0x1A,0x03, 0x1B,0x03, 0x1F,0x03, 0x1F,0x03, 0x17,0x03, 0x18,0x03, 0x19,0x02, 0x16,0x03, 0x17,0x03, 0x18,0x03, 0x17,0x03, 0x18,0x03, 0x1F,0x03, 0x1F,0x02, 0x16,0x03, 0x17,0x03, 0x18,0x03, 0x17,0x03, 0x18,0x03, 0x20,0x03, 0x20,0x02, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x20,0x03, 0x21,0x03, 0x20,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x1F,0x03, 0x1B,0x03, 0x19,0x03, 0x19,0x03, 0x15,0x03, 0x1A,0x66, 0x1A,0x03, 0x19,0x03, 0x15,0x03, 0x15,0x03, 0x17,0x03, 0x16,0x66, 0x17,0x04, 0x18,0x04, 0x18,0x03, 0x19,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x20,0x03, 0x21,0x03, 0x20,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x1F,0x03, 0x1B,0x03, 0x19,0x03, 0x19,0x03, 0x15,0x03, 0x1A,0x66, 0x1A,0x03, 0x19,0x03, 0x19,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x00, 0x1A,0x03, 0x1A,0x03, 0x1A,0x03, 0x1B,0x03, 0x1B,0x03, 0x1A,0x03, 0x19,0x03, 0x19,0x02, 0x17,0x03, 0x15,0x17, 0x15,0x03, 0x16,0x03, 0x17,0x03, 0x18,0x03, 0x17,0x04, 0x18,0x0E, 0x18,0x03, 0x17,0x04, 0x18,0x0E, 0x18,0x66, 0x17,0x03, 0x18,0x03, 0x17,0x03, 0x18,0x03, 0x20,0x03, 0x20,0x02, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x20,0x03, 0x21,0x03, 0x20,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x1F,0x04, 0x1B,0x0E, 0x1B,0x03, 0x19,0x03, 0x19,0x03, 0x15,0x03, 0x1A,0x66, 0x1A,0x03, 0x19,0x03, 0x15,0x03, 0x15,0x03, 0x17,0x03, 0x16,0x66, 0x17,0x04, 0x18,0x04, 0x18,0x03, 0x19,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x20,0x03, 0x21,0x03, 0x20,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x66, 0x1F,0x03, 0x1B,0x03, 0x19,0x03, 0x19,0x03, 0x15,0x03, 0x1A,0x66, 0x1A,0x03, 0x19,0x03, 0x19,0x03, 0x1F,0x03, 0x1B,0x03, 0x1F,0x00, 0x18,0x02, 0x18,0x03, 0x1A,0x03, 0x19,0x0D, 0x15,0x03, 0x15,0x02, 0x18,0x66, 0x16,0x02, 0x17,0x02, 0x15,0x00, 0x00,0x00}; //同一首歌 unsigned char code Music_Same[]={ 0x0F,0x01, 0x15,0x02, 0x16,0x02, 0x17,0x66, 0x18,0x03, 0x17,0x02, 0x15,0x02, 0x16,0x01, 0x15,0x02, 0x10,0x02, 0x15,0x00, 0x0F,0x01, 0x15,0x02, 0x16,0x02, 0x17,0x02, 0x17,0x03, 0x18,0x03, 0x19,0x02, 0x15,0x02, 0x18,0x66, 0x17,0x03, 0x19,0x02, 0x16,0x03, 0x17,0x03, 0x16,0x00, 0x17,0x01, 0x19,0x02, 0x1B,0x02, 0x1B,0x70, 0x1A,0x03, 0x1A,0x01, 0x19,0x02, 0x19,0x03, 0x1A,0x03, 0x1B,0x02, 0x1A,0x0D, 0x19,0x03, 0x17,0x00, 0x18,0x66, 0x18,0x03, 0x19,0x02, 0x1A,0x02, 0x19,0x0C, 0x18,0x0D, 0x17,0x03, 0x16,0x01, 0x11,0x02, 0x11,0x03, 0x10,0x03, 0x0F,0x0C, 0x10,0x02, 0x15,0x00, 0x1F,0x01, 0x1A,0x01, 0x18,0x66, 0x19,0x03, 0x1A,0x01, 0x1B,0x02, 0x1B,0x03, 0x1B,0x03, 0x1B,0x0C, 0x1A,0x0D, 0x19,0x03, 0x17,0x00, 0x1F,0x01, 0x1A,0x01, 0x18,0x66, 0x19,0x03, 0x1A,0x01, 0x10,0x02, 0x10,0x03, 0x10,0x03, 0x1A,0x0C, 0x18,0x0D, 0x17,0x03, 0x16,0x00, 0x0F,0x01, 0x15,0x02, 0x16,0x02, 0x17,0x70, 0x18,0x03, 0x17,0x02, 0x15,0x03, 0x15,0x03, 0x16,0x66, 0x16,0x03, 0x16,0x02, 0x16,0x03, 0x15,0x03, 0x10,0x02, 0x10,0x01, 0x11,0x01, 0x11,0x66, 0x10,0x03, 0x0F,0x0C, 0x1A,0x02, 0x19,0x02, 0x16,0x03, 0x16,0x03, 0x18,0x66, 0x18,0x03, 0x18,0x02, 0x17,0x03, 0x16,0x03, 0x19,0x00, 0x00,0x00 }; //两只蝴蝶 unsigned char code Music_Two[] ={ 0x17,0x03, 0x16,0x03, 0x17,0x01, 0x16,0x03, 0x17,0x03, 0x16,0x03, 0x15,0x01, 0x10,0x03, 0x15,0x03, 0x16,0x02, 0x16,0x0D, 0x17,0x03, 0x16,0x03, 0x15,0x03, 0x10,0x03, 0x10,0x0E, 0x15,0x04, 0x0F,0x01, 0x17,0x03, 0x16,0x03, 0x17,0x01, 0x16,0x03, 0x17,0x03, 0x16,0x03, 0x15,0x01, 0x10,0x03, 0x15,0x03, 0x16,0x02, 0x16,0x0D, 0x17,0x03, 0x16,0x03, 0x15,0x03, 0x10,0x03, 0x15,0x03, 0x16,0x01, 0x17,0x03, 0x16,0x03, 0x17,0x01, 0x16,0x03, 0x17,0x03, 0x16,0x03, 0x15,0x01, 0x10,0x03, 0x15,0x03, 0x16,0x02, 0x16,0x0D, 0x17,0x03, 0x16,0x03, 0x15,0x03, 0x10,0x03, 0x10,0x0E, 0x15,0x04, 0x0F,0x01, 0x17,0x03, 0x19,0x03, 0x19,0x01, 0x19,0x03, 0x1A,0x03, 0x19,0x03, 0x17,0x01, 0x16,0x03, 0x16,0x03, 0x16,0x02, 0x16,0x0D, 0x17,0x03, 0x16,0x03, 0x15,0x03, 0x10,0x03, 0x10,0x0D, 0x15,0x00, 0x19,0x03, 0x19,0x03, 0x1A,0x03, 0x1F,0x03, 0x1B,0x03, 0x1B,0x03, 0x1A,0x03, 0x17,0x0D, 0x16,0x03, 0x16,0x03, 0x16,0x0D, 0x17,0x01, 0x17,0x03, 0x17,0x03, 0x19,0x03, 0x1A,0x02, 0x1A,0x02, 0x10,0x03, 0x17,0x0D, 0x16,0x03, 0x16,0x01, 0x17,0x03, 0x19,0x03, 0x19,0x03, 0x17,0x03, 0x19,0x02, 0x1F,0x02, 0x1B,0x03, 0x1A,0x03, 0x1A,0x0E, 0x1B,0x04, 0x17,0x02, 0x1A,0x03, 0x1A,0x03, 0x1A,0x0E, 0x1B,0x04, 0x1A,0x03, 0x19,0x03, 0x17,0x03, 0x16,0x03, 0x17,0x0D, 0x16,0x03, 0x17,0x03, 0x19,0x01, 0x19,0x03, 0x19,0x03, 0x1A,0x03, 0x1F,0x03, 0x1B,0x03, 0x1B,0x03, 0x1A,0x03, 0x17,0x0D, 0x16,0x03, 0x16,0x03, 0x16,0x03, 0x17,0x01, 0x17,0x03, 0x17,0x03, 0x19,0x03, 0x1A,0x02, 0x1A,0x02, 0x10,0x03, 0x17,0x0D, 0x16,0x03, 0x16,0x01, 0x17,0x03, 0x19,0x03, 0x19,0x03, 0x17,0x03, 0x19,0x03, 0x1F,0x02, 0x1B,0x03, 0x1A,0x03, 0x1A,0x0E, 0x1B,0x04, 0x17,0x02, 0x1A,0x03, 0x1A,0x03, 0x1A,0x0E, 0x1B,0x04, 0x17,0x16, 0x1A,0x03, 0x1A,0x03, 0x1A,0x0E, 0x1B,0x04, 0x1A,0x03, 0x19,0x03, 0x17,0x03, 0x16,0x03, 0x0F,0x02, 0x10,0x03, 0x15,0x00, 0x00,0x00 }; void main() { InitialSound(); while(1) { Play(Music_Girl,0,2,350); Play(Music_Same,0,2,350); Play(Music_Two,0,2,350); } } 点击下载Music Encode ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// 再例如:关于“世上只有妈妈好”的单片机音乐演奏程序 单片机演奏一个音符,是通过引脚,周期性的输出一个特定频率的方波。 这就需要单片机,在半个周期内输出低电平、另外半个周期输出高电平,周而复始。 半个周期的时间是多长呢?众所周知,周期为频率的倒数,可以通过音符的频率计算出半周期。 演奏时,要根据音符频率的不同,把对应的、半个周期的定时时间初始值,送入定时器,再由定时器按时输出高低电平。 下面是个网上广泛流传的单片机音乐演奏程序,它可以循环的播放“世上只有妈妈好”这首乐曲。很多人都关心如何修改这个乐曲的内容,但是不知如何入手。 做而论道对这个程序,给出说明,希望对大家有所帮助,以后大家自己就能够编写进去新的乐曲。 在这个程序中,有两个数据表,其中存放了事先算好的、各种音符频率所对应的、半周期的定时时间初始值。 有了这些数据,单片机就可以演奏从低音、中音、高音和超高音,四个八度共28个音符。 演奏乐曲时,就根据音符的不同数值,从半周期数据表中找到定时时间初始值,送入定时器即可控制发音的音调。 比如把表中的0xF2和0x42送到定时器,定时器按照这个初始值来产生中断,输出的方波,人们听起来,这就是低音1。 乐曲的数据,也要写个数据表,程序中以 code unsigned char sszymmh[] 命名。 这个表中每三个数字,说明了一个音符,它们分别代表: 第一个数字是音符的数值1234567之一,代表多来咪发...; 第二个数字是0123之一,代表低音、中音、高音、超高音; 第三个数字是时间长度,以半拍为单位。 乐曲数据表的结尾是三个0。 程序如下: #include ***it speaker = P1^7; unsigned char timer0h, timer0l, time; //-------------------------------------- //单片机晶振采用11.0592MHz // 频率-半周期数据表 高八位 本软件共保存了四个八度的28个频率数据 code unsigned char FREQH[] = { 0xF2, 0xF3, 0xF5, 0xF5, 0xF6, 0xF7, 0xF8, //低音1234567 0xF9, 0xF9, 0xFA, 0xFA, 0xFB, 0xFB, 0xFC, 0xFC,//1,2,3,4,5,6,7,i 0xFC, 0xFD, 0xFD, 0xFD, 0xFD, 0xFE, //高音 234567 0xFE, 0xFE, 0xFE, 0xFE, 0xFE, 0xFE, 0xFF}; //超高音 1234567 // 频率-半周期数据表 低八位 code unsigned char FREQL[] = { 0x42, 0xC1, 0x17, 0xB6, 0xD0, 0xD1, 0xB6, //低音1234567 0x21, 0xE1, 0x8C, 0xD8, 0x68, 0xE9, 0x5B, 0x8F, //1,2,3,4,5,6,7,i 0xEE, 0x44, 0x6B, 0xB4, 0xF4, 0x2D, //高音 234567 0x47, 0x77, 0xA2, 0xB6, 0xDA, 0xFA, 0x16}; //超高音 1234567 //-------------------------------------- //世上只有妈妈好数据表 要想演奏不同的乐曲, 只需要修改这个数据表 code unsigned char sszymmh[] = { 6, 2, 3, 5, 2, 1, 3, 2, 2, 5, 2, 2, 1, 3, 2, 6, 2, 1, 5, 2, 1, //一个音符有三个数字。前为第几个音、中为第几个八度、后为时长(以半拍为单位)。 //6, 2, 3 分别代表:6, 中音, 3个半拍; //5, 2, 1 分别代表:5, 中音, 1个半拍; //3, 2, 2 分别代表:3, 中音, 2个半拍; //5, 2, 2 分别代表:5, 中音, 2个半拍; //1, 3, 2 分别代表:1, 高音, 2个半拍; // 6, 2, 4, 3, 2, 2, 5, 2, 1, 6, 2, 1, 5, 2, 2, 3, 2, 2, 1, 2, 1, 6, 1, 1, 5, 2, 1, 3, 2, 1, 2, 2, 4, 2, 2, 3, 3, 2, 1, 5, 2, 2, 5, 2, 1, 6, 2, 1, 3, 2, 2, 2, 2, 2, 1, 2, 4, 5, 2, 3, 3, 2, 1, 2, 2, 1, 1, 2, 1, 6, 1, 1, 1, 2, 1, 5, 1, 6, 0, 0, 0}; //-------------------------------------- void t0int() interrupt 1 //T0中断程序,控制发音的音调 { TR0 = 0; //先关闭T0 speaker = !speaker; //输出方波, 发音 TH0 = timer0h; //下次的中断时间, 这个时间, 控制音调高低 TL0 = timer0l; TR0 = 1; //启动T0 } //-------------------------------------- void delay(unsigned char t) //延时程序,控制发音的时间长度 { unsigned char t1; unsigned long t2; for(t1 = 0; t1 < t; t1++) //双重循环, 共延时t个半拍 for(t2 = 0; t2 < 8000; t2++); //延时期间, 可进入T0中断去发音 TR0 = 0; //关闭T0, 停止发音 } //-------------------------------------- void song() //演奏一个音符 { TH0 = timer0h; //控制音调 TL0 = timer0l; TR0 = 1; //启动T0, 由T0输出方波去发音 delay(time); //控制时间长度 } //-------------------------------------- void main(void) { unsigned char k, i; TMOD = 1; //置T0定时工作方式1 ET0 = 1; //开T0中断 EA = 1; //开CPU中断 while(1) { i = 0; time = 1; while(time) { k = sszymmh + 7 * sszymmh[i + 1] - 1; //第i个是音符, 第i+1个是第几个八度 timer0h = FREQH[k]; //从数据表中读出频率数值 timer0l = FREQL[k]; //实际上, 是定时的时间长度 time = sszymmh[i + 2]; //读出时间长度数值 i += 3; song(); //发出一个音符 } } } //====================================== 应网友要求,下面再详细写一下乐谱和数据的转换关系。 以李叔同大师的《送别》的前二小节来说明转换的方法。 这部分的歌词是:“长 亭 外, 古 道 边,”; 这部分的乐谱是:| 5 35 1 - | 6 16 5 - |。 (注意:乐谱中的1是高音,上边是带点的;还有些音符,应该有下划线,在这里都无法标出。感兴趣的网友应该去查看正规的乐谱。) 那么,据此就可以写出《送别》前二小节的数据表: //-------------------------------------- code unsigned char sszymmh[] = { 5, 2, 2, 3, 2, 1, 5, 2, 1, 1, 3, 4, //嗦,中音,2个半拍; 咪,中音,1个半拍; 嗦,中音,1个半拍; 哆,高音,4个半拍 6, 2, 2, 1, 3, 1, 6, 2, 1, 5, 2, 4, //啦,中音,2个半拍; 哆,高音,1个半拍; 啦,中音,1个半拍; 嗦,中音,4个半拍 0, 0, 0}; //结束标记 //-------------------------------------- 记住:三个数字一组,代表一个音符。 第一个数字是1234567之一,代表音符哆来咪发...; 第二个数字是0123之一,代表低音、中音、高音、超高音; 第三个数字是半拍的个数,代表时间长度。 当三个数字都是0,就代表乐曲数据表的结尾。 用这个数据表,替换掉程序中《世上只有妈妈好》的数据表,本程序就可以播放《送别》的前两小节。
MusicEncode.zip
(311.69 KB, 下载次数: 166
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ddddddddddddddddzaddddd
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谢谢楼主!资料带走了
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多谢分享 我来看看
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