PCM、WAV格式介绍及用C语言实现PCM转WAV

2024年5月3日 互联网

1、PCM格式介绍:

PCM(Pulse Code Modulation)也被称为 脉码编码调制。PCM中的声音数据没有被压缩,如果是单声道的文件,采样数据按时间的先后顺序依次存入。(它的基本组织单位是BYTE(8bit)或WORD(16bit))
参考文献http://blog.csdn.net/ownwell/article/details/8114121/

2、WAV格式

(1)格式介绍:

WAVE文件格式是Microsoft的RIFF规范的一个子集,用于存储多媒体文件。WAVE文件通常只是一个具有单个“WAVE”块的RIFF文件,该块由两个子块("fmt"子数据块和"data"子数据块)组成。
如下图所示:
这里写图片描述

(2)每个字段的的含义介绍:

   typedef struct{char          ChunkID[4];//内容为"RIFF"unsigned long ChunkSize;//存储文件的字节数(不包含ChunkID和ChunkSize这8个字节)char          Format[4];//内容为"WAVE"}WAVE_HEADER;typedef struct{char          Subchunk1ID[4];//内容为"fmt"unsigned long  Subchunk1Size;//存储该子块的字节数(不含前面的Subchunk1ID和Subchunk1Size这8个字节)unsigned short AudioFormat;//存储音频文件的编码格式,例如若为PCM则其存储值为1,若为其他非PCM格式的则有一定的压缩。unsigned short NumChannels;//通道数,单通道(Mono)值为1,双通道(Stereo)值为2,等等unsigned long  SampleRate;//采样率,如8k,44.1k等unsigned long  ByteRate;//每秒存储的bit数,其值=SampleRate * NumChannels * BitsPerSample/8unsigned short BlockAlign;//块对齐大小,其值=NumChannels * BitsPerSample/8unsigned short BitsPerSample;//每个采样点的bit数,一般为8,16,32等。}WAVE_FMT;typedef struct{char          Subchunk2ID[4];//内容为“data”unsigned long Subchunk2Size;//内容为接下来的正式的数据部分的字节数,其值=NumSamples * NumChannels * BitsPerSample/8}WAVE_DATA;

(3)一个WAVE例子

这里是一个WAVE文件的开头72字节,字节显示为十六进制数字:
52 49 46 46 24 08 00 00 57 41 56 45 66 6d 74 20 10 00 00 00 01 00 02 00
22 56 00 00 88 58 01 00 04 00 10 00 64 61 74 61 00 08 00 00 00 00 00 00
24 17 1e f3 3c 13 3c 14 16 f9 18 f9 34 e7 23 a6 3c f2 24 f2 11 ce 1a 0d
字段解析:
这里写图片描述
参考文献1http://soundfile.sapp.org/doc/WaveFormat/
参考文献2http://www.lightlink.com/tjweber/StripWav/Canon.html
参考文献3http://www.topherlee.com/software/pcm-tut-wavformat.html

3、用C语言实现PCM转WAVE

#include <stdio.h>
#include <string.h>/*** Convert PCM16LE raw data to WAVE format* @param pcmpath       Input PCM file.* @param channels      Channel number of PCM file.* @param sample_rate   Sample rate of PCM file.* @param wavepath      Output WAVE file.*/
int simplest_pcm16le_to_wave(const char *pcmpath, int channels, int sample_rate, const char *wavepath)
{typedef struct WAVE_HEADER{char    fccID[4];       //内容为""RIFFunsigned long dwSize;   //最后填写,WAVE格式音频的大小char    fccType[4];     //内容为"WAVE"}WAVE_HEADER;typedef struct WAVE_FMT{char    fccID[4];          //内容为"fmt "unsigned long  dwSize;     //内容为WAVE_FMT占的字节数,为16unsigned short wFormatTag; //如果为PCM,改值为 1unsigned short wChannels;  //通道数,单通道=1,双通道=2unsigned long  dwSamplesPerSec;//采用频率unsigned long  dwAvgBytesPerSec;/* ==dwSamplesPerSec*wChannels*uiBitsPerSample/8 */unsigned short wBlockAlign;//==wChannels*uiBitsPerSample/8unsigned short uiBitsPerSample;//每个采样点的bit数,8bits=8, 16bits=16}WAVE_FMT;typedef struct WAVE_DATA{char    fccID[4];       //内容为"data"unsigned long dwSize;   //==NumSamples*wChannels*uiBitsPerSample/8}WAVE_DATA;if(channels==2 || sample_rate==0){channels = 2;sample_rate = 44100;}int bits = 16;WAVE_HEADER pcmHEADER;WAVE_FMT    pcmFMT;WAVE_DATA   pcmDATA;unsigned short m_pcmData;FILE *fp, *fpout;fp = fopen(pcmpath, "rb+");if(fp==NULL){printf("Open pcm file error.\n");return -1;}fpout = fopen(wavepath, "wb+");if(fpout==NULL){printf("Create wav file error.\n");return -1;}/* WAVE_HEADER */memcpy(pcmHEADER.fccID, "RIFF", strlen("RIFF"));memcpy(pcmHEADER.fccType, "WAVE", strlen("WAVE"));fseek(fpout, sizeof(WAVE_HEADER), 1);   //1=SEEK_CUR/* WAVE_FMT */memcpy(pcmFMT.fccID, "fmt ", strlen("fmt "));pcmFMT.dwSize = 16;pcmFMT.wFormatTag = 1;pcmFMT.wChannels = 2;pcmFMT.dwSamplesPerSec = sample_rate;pcmFMT.uiBitsPerSample = bits;/* ==dwSamplesPerSec*wChannels*uiBitsPerSample/8 */pcmFMT.dwAvgBytesPerSec = pcmFMT.dwSamplesPerSec*pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;/* ==wChannels*uiBitsPerSample/8 */pcmFMT.wBlockAlign = pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;fwrite(&pcmFMT, sizeof(WAVE_FMT), 1, fpout);/* WAVE_DATA */memcpy(pcmDATA.fccID, "data", strlen("data"));pcmDATA.dwSize = 0;fseek(fpout, sizeof(WAVE_DATA), SEEK_CUR);fread(&m_pcmData, sizeof(unsigned short), 1, fp);while(!feof(fp)){pcmDATA.dwSize += 2;fwrite(&m_pcmData, sizeof(unsigned short), 1, fpout);fread(&m_pcmData, sizeof(unsigned short), 1, fp);}/*pcmHEADER.dwSize = 44 + pcmDATA.dwSize;*///修改时间:2018年1月5日pcmHEADER.dwSize = 36 + pcmDATA.dwSize;rewind(fpout);fwrite(&pcmHEADER, sizeof(WAVE_HEADER), 1, fpout);fseek(fpout, sizeof(WAVE_FMT), SEEK_CUR);fwrite(&pcmDATA, sizeof(WAVE_DATA), 1, fpout);fclose(fp);fclose(fpout);return 0;
}int main()
{simplest_pcm16le_to_wave("NocturneNo2inEflat_44.1k_s16le.pcm", 2, 44100, "output_nocture.wav");return 0;
}

结果如图所示:
这里写图片描述

参考文献http://blog.csdn.net/leixiaohua1020/article/details/50534316
2017年10月26日 星期四 修改

原74行代码:
**pcmFMT.dwAvgBytesPerSec = pcmFMT.dwSamplesPerSec*pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;**
改为
pcmFMT.dwAvgBytesPerSec = pcmFMT.dwSamplesPerSec*pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;

原76行:
**pcmFMT.wBlockAlign = pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;**
改为:
pcmFMT.wBlockAlign = pcmFMT.wChannels*pcmFMT.uiBitsPerSample/8;
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