从wavfile标题读取采样率
问题描述:
我正在编写读取波形文件的代码。从wavfile标题读取采样率
我使用this document作为我的指导原则。
它指定标题的字节22是波形文件的通道数,标题的字节24是采样率。
我正在使用由Ableton输出的测试文件作为2通道16位44100hz。我已经确认测试波形文件的格式是大胆的,以确保它确实是44100hz的采样率。
当我读取wave文件时,我得到一个采样率值-21436。我很确定我的代码读取一个小端的整数是正确的。我确定我的测试wavfile是正确的。所以,现在我不知道为什么读取的采样率是不正确的....
我的int读取代码如下。
int ReadInt(char* bytes , int start) { return (bytes[start+3] << 24) + (bytes[start+2] << 16) + (bytes[start+1] << 8) + bytes[start]; }
读取波形文件是如下的功能...
WavFile::WavFile(std::string filename)
{
std::ifstream ifs;
ifs.open(filename, std::ios::binary | std::ios::in);
LogStream(LOG_DEBUG) << "WavFile::WavFile - - - - BEGIN READING WAV - - - -";
if(ifs.fail())
throw std::invalid_argument("WavFile::WavFile : Failed to open wavFile "+filename);
char hbytes[HEADER_SIZE];
ifs.read(hbytes , HEADER_SIZE);
// check that this is actually a wave file
bool valid_riff = hbytes[0]=='R' && hbytes[1]=='I' && hbytes[2]=='F' && hbytes[3]=='F';
bool valid_wave = hbytes[8]=='W' && hbytes[9]=='A' && hbytes[10]=='V' && hbytes[11]=='E';
bool valid_ftm = (hbytes[12]=='f' && hbytes[13]=='m' && hbytes[14]=='t' && hbytes[15]==' ');
bool valid_data = (hbytes[36]=='d' && hbytes[37]=='a' && hbytes[38]=='t' && hbytes[39]=='a');
LogStream(LOG_DEBUG) << "WavFile::WavFile - valid_riff="<<valid_riff<<" valid_wave="<<valid_wave<<" valid_ftm="<<valid_ftm<<" valid_data="<<valid_data;
if(!(valid_data && valid_ftm && valid_riff))
throw std::invalid_argument("WavFile::WavFile : Invalid argument - unable to open wavfile "+filename);
int audioFormat = ReadShort(hbytes , 20);
int SubChunk1Size = ReadInt(hbytes , 16);
if(audioFormat != 1 || SubChunk1Size != 16)
throw std::invalid_argument("WavFile::WavFile : Only uncompressed PCM wave format supported."+filename);
int subChunk2size = ReadInt(hbytes , 40);
m_header.num_channels = ReadShort(hbytes , 22);
m_header.sample_rate = ReadInt(hbytes , 24);
m_header.bits_per_sample = ReadShort(hbytes , 34);
LogStream(LOG_DEBUG) << "WavFile::WavFile num_channels="<<m_header.num_channels << " sample_rate="<<m_header.sample_rate<<" bits_per_sample="<<m_header.bits_per_sample;
m_pcm_data.resize(subChunk2size/sizeof(int16_t));
LogStream(LOG_DEBUG) << "WavFile::WavFile - subChunk2size = "<<subChunk2size;
LogStream(LOG_DEBUG) << "WavFile::WavFile - m_pcm_data.size() = "<<m_pcm_data.size();
ifs.read((char*)m_pcm_data.data() , subChunk2size);
LogStream(LOG_DEBUG) << "WavFile: ifstream failbit="<<ifs.fail()<<" badbit="<<ifs.bad()<<" goodbit="<<ifs.good();
ifs.close();
LogStream(LOG_DEBUG) << "WavFile::WavFile - - - - END READING WAV - - - -\n";
LogStream(LOG_DEBUG) << "WavFile::WavFile";
}
答
44100有十六进制值44ac(无符号INT16)和-21436也有十六进制值44ac(签署INT16) - 中问题在于编译器在移位之前将每个带符号的char隐式转换为有符号整数。您可避免通过铸造如下(其中输出44100):
int main()
{
char bytes[4] = { 0x44, 0xac, 0x00, 0x00 };
printf("%i\n", (((unsigned char)bytes[3]) << 24) | (((unsigned char)bytes[2]) << 16) | (((unsigned char)bytes[1]) << 8) | ((unsigned char)bytes[0]));
return 0;
}
或简单地读成无符号字节 - 这将避免对其他领域一样的问题:
int main()
{
unsigned char bytes[4] = { 0x44, 0xac, 0x00, 0x00 };
printf("%i\n", (bytes[3] << 24) | (bytes[2] << 16) | (bytes[1] << 8) | bytes[0]);
return 0;
}
如果你的字符导致负整数,我不确定添加它们会正常工作。在你的类型上使用按位或'unsigned'。 –