/***************************************************/ /*! \class Stk \brief STK base class Nearly all STK classes inherit from this class. The global sample rate can be queried and modified via Stk. In addition, this class provides error handling and byte-swapping functions. by Perry R. Cook and Gary P. Scavone, 1995 - 2005. */ /***************************************************/ #include "Stk.h" #include using namespace Nyq; StkFloat Stk :: srate_ = (StkFloat) SRATE; std::string Stk :: rawwavepath_ = RAWWAVE_PATH; const Stk::StkFormat Stk :: STK_SINT8 = 0x1; const Stk::StkFormat Stk :: STK_SINT16 = 0x2; const Stk::StkFormat Stk :: STK_SINT24 = 0x4; const Stk::StkFormat Stk :: STK_SINT32 = 0x8; const Stk::StkFormat Stk :: STK_FLOAT32 = 0x10; const Stk::StkFormat Stk :: STK_FLOAT64 = 0x20; bool Stk :: showWarnings_ = false; bool Stk :: printErrors_ = true; Stk :: Stk(void) { } Stk :: ~Stk(void) { } void Stk :: setRawwavePath( std::string path ) { if ( !path.empty() ) rawwavepath_ = path; // Make sure the path includes a "/" if ( rawwavepath_[rawwavepath_.length()-1] != '/' ) rawwavepath_ += "/"; } void Stk :: swap16(unsigned char *ptr) { register unsigned char val; // Swap 1st and 2nd bytes val = *(ptr); *(ptr) = *(ptr+1); *(ptr+1) = val; } void Stk :: swap32(unsigned char *ptr) { register unsigned char val; // Swap 1st and 4th bytes val = *(ptr); *(ptr) = *(ptr+3); *(ptr+3) = val; //Swap 2nd and 3rd bytes ptr += 1; val = *(ptr); *(ptr) = *(ptr+1); *(ptr+1) = val; } void Stk :: swap64(unsigned char *ptr) { register unsigned char val; // Swap 1st and 8th bytes val = *(ptr); *(ptr) = *(ptr+7); *(ptr+7) = val; // Swap 2nd and 7th bytes ptr += 1; val = *(ptr); *(ptr) = *(ptr+5); *(ptr+5) = val; // Swap 3rd and 6th bytes ptr += 1; val = *(ptr); *(ptr) = *(ptr+3); *(ptr+3) = val; // Swap 4th and 5th bytes ptr += 1; val = *(ptr); *(ptr) = *(ptr+1); *(ptr+1) = val; } #if (defined(__OS_IRIX__) || defined(__OS_LINUX__) || defined(__OS_MACOSX__)) #include #elif defined(__OS_WINDOWS__) #include #endif void Stk :: sleep(unsigned long milliseconds) { #if defined(__OS_WINDOWS__) Sleep((DWORD) milliseconds); #elif (defined(__OS_IRIX__) || defined(__OS_LINUX__) || defined(__OS_MACOSX__)) usleep( (unsigned long) (milliseconds * 1000.0) ); #endif } void Stk :: handleError( StkError::Type type ) { handleError( errorString_.str(), type ); errorString_.str( std::string() ); // reset the ostringstream buffer } void Stk :: handleError( const char *message, StkError::Type type ) { std::string msg( message ); handleError( msg, type ); } void Stk :: handleError( std::string message, StkError::Type type ) { if ( type == StkError::WARNING || type == StkError::STATUS ) { if ( !showWarnings_ ) return; std::cerr << '\n' << message << '\n' << std::endl; } else if (type == StkError::DEBUG_WARNING) { #if defined(_STK_DEBUG_) std::cerr << '\n' << message << '\n' << std::endl; #endif } else { if ( printErrors_ ) { // Print error message before throwing. std::cerr << '\n' << message << '\n' << std::endl; } throw StkError(message, type); } } // // StkFrames definitions // StkFrames :: StkFrames( unsigned int nFrames, unsigned int nChannels, bool interleaved ) : nFrames_( nFrames ), nChannels_( nChannels ), interleaved_( interleaved ) { size_ = nFrames_ * nChannels_; bufferSize_ = size_; if ( size_ > 0 ) { data_ = (StkFloat *) calloc( size_, sizeof( StkFloat ) ); #if defined(_STK_DEBUG_) if ( data_ == NULL ) { std::string error = "StkFrames: memory allocation error in constructor!"; Stk::handleError( error, StkError::MEMORY_ALLOCATION ); } #endif } else data_ = 0; dataRate_ = Stk::sampleRate(); } StkFrames :: StkFrames( const StkFloat& value, unsigned int nFrames, unsigned int nChannels, bool interleaved ) : nFrames_( nFrames ), nChannels_( nChannels ), interleaved_( interleaved ) { size_ = nFrames_ * nChannels_; bufferSize_ = size_; if ( size_ > 0 ) { data_ = (StkFloat *) malloc( size_ * sizeof( StkFloat ) ); #if defined(_STK_DEBUG_) if ( data_ == NULL ) { std::string error = "StkFrames: memory allocation error in constructor!"; Stk::handleError( error, StkError::MEMORY_ALLOCATION ); } #endif for ( long i=0; i<(long)size_; i++ ) data_[i] = value; } else data_ = 0; dataRate_ = Stk::sampleRate(); } StkFrames :: ~StkFrames() { if ( data_ ) free( data_ ); } bool StkFrames :: empty() const { if ( size_ > 0 ) return false; else return true; } void StkFrames :: resize( size_t nFrames, unsigned int nChannels ) { nFrames_ = nFrames; nChannels_ = nChannels; size_ = nFrames_ * nChannels_; if ( size_ > bufferSize_ ) { if ( data_ ) free( data_ ); data_ = (StkFloat *) malloc( size_ * sizeof( StkFloat ) ); #if defined(_STK_DEBUG_) if ( data_ == NULL ) { std::string error = "StkFrames::resize: memory allocation error!"; Stk::handleError( error, StkError::MEMORY_ALLOCATION ); } #endif bufferSize_ = size_; } } void StkFrames :: resize( size_t nFrames, unsigned int nChannels, StkFloat value ) { this->resize( nFrames, nChannels ); for ( size_t i=0; i= size_ ) { std::ostringstream error; error << "StkFrames::operator[]: invalid index (" << n << ") value!"; Stk::handleError( error.str(), StkError::MEMORY_ACCESS ); } #endif return data_[n]; } StkFloat StkFrames :: operator[] ( size_t n ) const { #if defined(_STK_DEBUG_) if ( n >= size_ ) { std::ostringstream error; error << "StkFrames::operator[]: invalid index (" << n << ") value!"; Stk::handleError( error.str(), StkError::MEMORY_ACCESS ); } #endif return data_[n]; } StkFloat& StkFrames :: operator() ( size_t frame, unsigned int channel ) { #if defined(_STK_DEBUG_) if ( frame >= nFrames_ || channel >= nChannels_ ) { std::ostringstream error; error << "StkFrames::operator(): invalid frame (" << frame << ") or channel (" << channel << ") value!"; Stk::handleError( error.str(), StkError::MEMORY_ACCESS ); } #endif if ( interleaved_ ) return data_[ frame * nChannels_ + channel ]; else return data_[ channel * nFrames_ + frame ]; } StkFloat StkFrames :: operator() ( size_t frame, unsigned int channel ) const { #if defined(_STK_DEBUG_) if ( frame >= nFrames_ || channel >= nChannels_ ) { std::ostringstream error; error << "StkFrames::operator(): invalid frame (" << frame << ") or channel (" << channel << ") value!"; Stk::handleError( error.str(), StkError::MEMORY_ACCESS ); } #endif if ( interleaved_ ) return data_[ frame * nChannels_ + channel ]; else return data_[ channel * nFrames_ + frame ]; } StkFloat StkFrames :: interpolate( StkFloat frame, unsigned int channel ) const { #if defined(_STK_DEBUG_) if ( frame >= (StkFloat) nFrames_ || channel >= nChannels_ ) { std::ostringstream error; error << "StkFrames::interpolate: invalid frame (" << frame << ") or channel (" << channel << ") value!"; Stk::handleError( error.str(), StkError::MEMORY_ACCESS ); } #endif size_t iIndex = ( size_t ) frame; // integer part of index StkFloat output, alpha = frame - (StkFloat) iIndex; // fractional part of index if ( interleaved_ ) { iIndex = iIndex * nChannels_ + channel; output = data_[ iIndex ]; output += ( alpha * ( data_[ iIndex + nChannels_ ] - output ) ); } else { iIndex += channel * nFrames_; output = data_[ iIndex ]; output += ( alpha * ( data_[ iIndex++ ] - output ) ); } return output; }