本文實例介紹了使用winmm.h進行音頻流的獲取的方法���,具體步驟如下:
一���、首先需要包含以下引用對象
#include <Windows.h>#include "mmsystem.h"#pragma comment(lib, "winmm.lib")
二、音頻的獲取需要調用7個函數
1. waveInGetNumDevs:返回系統中就緒的波形聲音輸入設備的數量
UINT waveInGetNumDevs(VOID);
2. waveInGetDevCaps:檢查指定波形輸入設備的特性
MMRESULT waveInGetDevCaps( UINT_PTR uDeviceID, LPWAVEINCAPS pwic, UINT cbwic );//uDeviceID 音頻輸入設備標識,也可以為一個打開的音頻輸入設備的句柄.// 個人認為如果上一步獲得了多個設備���,可以用索引標識每一個設備.// //pwic 對WAVEINCAPS結構體的一個指針,包含設備的音頻特性.////cbwic WAVEINCAPS結構體的大小,使用sizeof即可.////MMRESULT 函數執行的結果// MMSYSERR_NOERROR 表示執行成功// MMSYSERR_BADDEVICEID 索引越界 // MMSYSERR_NODRIVER 沒有就緒的設備 // MMSYSERR_NOMEM 不能分配或者鎖定內存
介紹WAVEINCAPS結構體的含義:
typedef struct { WORD wMid; //音頻設備制造商定義的驅動程序標識 WORD wPid; //音頻輸入設備的產品標識 MMVERSION vDriverVersion; //驅動程序版本號 TCHAR szPname[MAXPNAMELEN];//制造商名稱 DWORD dwFormats; //支持的格式,參見MSDN WORD wChannels; //支持的聲道數 WORD wReserved1; //保留參數} WAVEINCAPS;3. waveInOpen:打開指定的音頻輸入設備���,進行錄音
MMRESULT waveInOpen( LPHWAVEIN phwi, //接收打開的音頻輸入設備標識的HWAVEIN結構的指針 UINT_PTR uDeviceID, //指定一個需要打開的設備標識.可以使用WAVE_MAPPER選擇一個按指定錄音格式錄音的設備 LPWAVEFORMATEX pwfx, //一個所需的格式進行錄音的WAVEFORMATEX結構的指針 DWORD_PTR dwCallback, //指向一個回調函數、事件句柄���、窗口句柄���、線程標識,對錄音事件進行處理. DWORD_PTR dwCallbackInstance, //傳給回調機制的參數 DWORD fdwOpen //打開設備的方法標識,指定回調的類型.參見CSDN);
介紹WAVEFORMATEX結構體的含義:
typedef struct { WORD wFormatTag; //波形聲音的格式,單聲道雙聲道使用WAVE_FORMAT_PCM.當包含在WAVEFORMATEXTENSIBLE結構中時,使用WAVE_FORMAT_EXTENSIBLE. WORD nChannels; //聲道數量 DWORD nSamplesPerSec; //采樣率.wFormatTag為WAVE_FORMAT_PCM時,有8.0kHz,11.025kHz,22.05kHz,和44.1kHz. DWORD nAvgBytesPerSec; //每秒的采樣字節數.通過nSamplesPerSec * nChannels * wBitsPerSample / 8計算 WORD nBlockAlign; //每次采樣的字節數.通過nChannels * wBitsPerSample / 8計算 WORD wBitsPerSample; //采樣位數.wFormatTag為WAVE_FORMAT_PCM時,為8或者16 WORD cbSize; //wFormatTag為WAVE_FORMAT_PCM時,忽略此參數} WAVEFORMATEX;介紹dwCallback回調函數格式:
void CALLBACK waveInProc( HWAVEIN hwi, //回調此函數的設備句柄 UINT uMsg, //波形聲音輸入信息,標識關閉(WIM_CLOSE)���、緩沖區滿(WIM_DATA)、打開(WIM_OPEN). DWORD_PTR dwInstance, //用戶在waveInOpen指定的數據 DWORD_PTR dwParam1, //(LPWAVEHDR)dwParam1,用戶指定的緩沖區 DWORD_PTR dwParam2 );
4. waveInPrepareHeader:為音頻輸入設備準備一個緩沖區
MMRESULT waveInPrepareHeader( HWAVEIN hwi, //音頻輸入設備句柄 LPWAVEHDR pwh,//指向WAVEHDR結構的指針,標識準備的緩沖區 UINT cbwh //WAVEHDR結構的大小,使用sizeof即可);
介紹WAVEHDR結構:
typedef struct wavehdr_tag { LPSTR lpData; //指向波形格式的緩沖區 DWORD dwBufferLength; //緩沖區的大小 DWORD dwBytesRecorded; //當前存儲了多少數據 DWORD_PTR dwUser; //用戶數據 DWORD dwFlags; //為緩沖區提供的信息,在waveInPrepareHeader函數中使用WHDR_PREPARED DWORD dwLoops; //輸出時使用,標識播放次數 struct wavehdr_tag * lpNext;//reserved DWORD_PTR reserved; //reserved} WAVEHDR, *LPWAVEHDR; 5. waveInAddBuffer:將緩沖區發送給設備���,若緩沖區填滿,則不起作用���。(參數同上)
MMRESULT waveInAddBuffer( HWAVEIN hwi, LPWAVEHDR pwh, UINT cbwh );
6. waveInStart:開始進行錄制
MMRESULT waveInStart( HWAVEIN hwi //設備句柄);
7. waveInClose:關閉設備
MRESULT waveInClose( HWAVEIN hwi //設備句柄);
三���、完整實例代碼如下:
//Run.c文件#include <Windows.h>#include <stdio.h>#include "mmsystem.h"#pragma comment(lib, "winmm.lib")void PlayMusi();void WaveInitFormat(LPWAVEFORMATEX m_WaveFormat, WORD nCh,DWORD nSampleRate,WORD BitsPerSample);DWORD CALLBACK MicCallback(HWAVEIN hwavein, UINT uMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2);void RecordWave();void main(){ //PlayMusi(); RecordWave(); while(1);}void RecordWave(){ int count = waveInGetNumDevs();//1 printf("/n音頻輸入數量:%d/n",count); WAVEINCAPS waveIncaps; MMRESULT mmResult = waveInGetDevCaps(0,&waveIncaps,sizeof(WAVEINCAPS));//2 printf("/n音頻輸入設備:%s/n",waveIncaps.szPname); if(MMSYSERR_NOERROR==mmResult) { HWAVEIN phwi; WAVEFORMATEX pwfx; WaveInitFormat(&pwfx,1,8000,8); printf("/n請求打開音頻輸入設備"); printf("/n采樣參數:單聲道 8kHz 8bit/n"); mmResult=waveInOpen(&phwi,WAVE_MAPPER,&pwfx,(DWORD)(MicCallback),NULL,CALLBACK_FUNCTION);//3 if(MMSYSERR_NOERROR==mmResult) { WAVEHDR pwh1; char buffer1[10240]; pwh1.lpData=buffer1; pwh1.dwBufferLength=10240; pwh1.dwUser=1; pwh1.dwFlags=0; mmResult=waveInPrepareHeader(phwi,&pwh1,sizeof(WAVEHDR));//4 printf("/n準備緩沖區1"); WAVEHDR pwh2; char buffer2[10240]; pwh2.lpData=buffer2; pwh2.dwBufferLength=10240; pwh2.dwUser=2; pwh2.dwFlags=0; mmResult=waveInPrepareHeader(phwi,&pwh2,sizeof(WAVEHDR));//4 printf("/n準備緩沖區2/n"); if(MMSYSERR_NOERROR==mmResult) { mmResult=waveInAddBuffer(phwi,&pwh1,sizeof(WAVEHDR));//5 printf("/n將緩沖區1加入音頻輸入設備"); mmResult=waveInAddBuffer(phwi,&pwh2,sizeof(WAVEHDR));//5 printf("/n將緩沖區2加入音頻輸入設備/n"); if(MMSYSERR_NOERROR==mmResult) { mmResult=waveInStart(phwi);//6 printf("/n請求開始錄音/n"); } } } }}DWORD CALLBACK MicCallback(HWAVEIN hwavein, UINT uMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2){ switch(uMsg) { case WIM_OPEN: printf("/n設備已經打開.../n"); break; case WIM_DATA: printf("/n緩沖區%d存滿.../n",((LPWAVEHDR)dwParam1)->dwUser); waveInAddBuffer (hwavein, (LPWAVEHDR)dwParam1, sizeof (WAVEHDR)) ; break; case WIM_CLOSE: printf("/n設備已經關閉.../n"); break; default: break; } return 0;}void WaveInitFormat(LPWAVEFORMATEX m_WaveFormat, WORD nCh,DWORD nSampleRate,WORD BitsPerSample){ m_WaveFormat->wFormatTag = WAVE_FORMAT_PCM; m_WaveFormat->nChannels = nCh; m_WaveFormat->nSamplesPerSec = nSampleRate; m_WaveFormat->nAvgBytesPerSec = nSampleRate * nCh * BitsPerSample/8; m_WaveFormat->nBlockAlign = m_WaveFormat->nChannels * BitsPerSample/8; m_WaveFormat->wBitsPerSample = BitsPerSample; m_WaveFormat->cbSize = 0;}void PlayMusi(){ int error = mciSendString("open C://Users//Angel//Desktop//有多少愛可以重來.mp3 alias myDivece", NULL, 0, NULL); if (error == 0) { mciSendString("play myDivece", NULL, 0, NULL); //播放 }}
