我无法通过简单地添加两个音频样本的字节来将两个不同的音频样本混合成一个。
在下面的过程中,当我尝试在媒体播放器中打开mixed.mp3文件时,它说:
Windows Media Player在播放文件时遇到问题。
以下是我用来混合音频文件的代码:
byte[] bytes1,bytes2,final;
int length1,length2,max;
// Getting byte[] of audio file
using ( BinaryReader b = new BinaryReader(File.Open("background.mp3" , FileMode.Open)) )
{
length1 = (int)b.BaseStream.Length;
bytes1 = b.ReadBytes(length1);
}
using ( BinaryReader b = new BinaryReader(File.Open("voice.mp3" , FileMode.Open)) )
{
length2 = (int)b.BaseStream.Length;
bytes2 = b.ReadBytes(length2);
}
// Getting max length
if(length1 > length2){
max = length1;
}else{
max = length2;
}
// Initializing output byte[] of max length
final = new byte[max];
// Adding byte1 and byte2 and copying into final
for (int i=0;i<max;i++)
{
byte b1 , b2;
if(i < length1){
b1 = bytes1[i];
}else{
b1 = 0;
}
if ( i < length2 ){
b2 = bytes2[i];
}
else{
b2 = 0;
}
final[i] = (byte)(b1 + b2);
}
// Writing final[] as an mp3 file
File.WriteAllBytes("mixed.mp3" , final);
注意:我尝试混合两个相同的文件并且它有效,即媒体播放器没有抛出任何错误并正确播放。
答案 0 :(得分:10)
这很可能是因为你混合它们之前你不是decoding MP3文件。 和你只需要添加&#34;样本在一起,这将导致clipping;你应该先使用library将MP3文件解码为PCM,然后再将它们混合使用。
要正确混合您应该做的样本:
final[i] = (byte)(b1 / 2 + b2 / 2);
否则你的计算会溢出(同样,我通常建议在操作之前将音频标准化为float
)。还应该注意的是,您正在混合所有 MP3文件中的字节,即您正在弄乱标题(因此WMP拒绝播放您的&#34;混合& #34;文件)。您应该只混合文件的实际音频数据(样本),而不是整个文件。
我使用NAudio库提供了(评论的)工作示例 1 (它将混合音频导出到wav文件以避免进一步的复杂化):
// You can get the library via NuGet if preferred.
using NAudio.Wave;
...
var fileA = new AudioFileReader("Input path 1");
// Calculate our buffer size, since we're normalizing our samples to floats
// we'll need to account for that by dividing the file's audio byte count
// by its bit depth / 8.
var bufferA = new float[fileA.Length / (fileA.WaveFormat.BitsPerSample / 8)];
// Now let's populate our buffer with samples.
fileA.Read(bufferA, 0, bufferA.Length);
// Do it all over again for the other file.
var fileB = new AudioFileReader("Input path 2");
var bufferB = new float[fileB.Length / (fileB.WaveFormat.BitsPerSample / 8)];
fileB.Read(bufferB, 0, bufferB.Length);
// Calculate the largest file (simpler than using an 'if').
var maxLen = (long)Math.Max(bufferA.Length, bufferB.Length);
var final = new byte[maxLen];
// For now, we'll just save our mixed data to a wav file.
// (Things can get a little complicated when encoding to MP3.)
using (var writer = new WaveFileWriter("Output path", fileA.WaveFormat))
{
for (var i = 0; i < maxLen; i++)
{
float a, b;
if (i < bufferA.Length)
{
// Reduce the amplitude of the sample by 2
// to avoid clipping.
a = bufferA[i] / 2;
}
else
{
a = 0;
}
if (i < bufferB.Length)
{
b = bufferB[i] / 2;
}
else
{
b = 0;
}
writer.WriteSample(a + b);
}
}
1 输入文件必须具有相同的采样率,位深度和通道数,才能使其正常工作。