/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Rosegarden A sequencer and musical notation editor. Copyright 2000-2011 the Rosegarden development team. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "SoundFile.h" #include "base/Profiler.h" //#define DEBUG_SOUNDFILE 1 namespace Rosegarden { SoundFile::SoundFile(const QString &fileName): m_fileName(fileName), m_readChunkPtr( -1), m_readChunkSize(4096), // 4k blocks m_inFile(0), m_outFile(0), m_loseBuffer(false), m_fileSize(0) {} // Tidies up for any dervied classes // SoundFile::~SoundFile() { if (m_inFile) { m_inFile->close(); delete m_inFile; } if (m_outFile) { m_outFile->close(); delete m_outFile; } } // Read in a specified number of bytes and return them // as a string. // std::string SoundFile::getBytes(std::ifstream *file, unsigned int numberOfBytes) { if (file->eof()) { // Reset the input stream so it's operational again // file->clear(); throw(BadSoundFileException(m_fileName, "SoundFile::getBytes() - EOF encountered")); } if (!(*file)) { std::cerr << "SoundFile::getBytes() - stream is not well"; } std::string rS; char *fileBytes = new char[numberOfBytes]; file->read(fileBytes, numberOfBytes); for (int i = 0; i < file->gcount(); i++) rS += (unsigned char)fileBytes[i]; #ifdef DEBUG_SOUNDFILE // complain but return // if (rS.length() < numberOfBytes) std::cerr << "SoundFile::getBytes() - couldn't get all bytes (" << rS.length() << " from " << numberOfBytes << ")" << std::endl; #endif // clear down delete [] fileBytes; return rS; } // Read a specified number of bytes into a buffer. // size_t SoundFile::getBytes(std::ifstream *file, char *buf, size_t n) { if (!(*file)) { std::cerr << "SoundFile::getBytes() - stream is not well"; return 0; } if (file->eof()) { file->clear(); return 0; } file->read(buf, n); return file->gcount(); } // A buffered read based on the current file handle. // std::string SoundFile::getBytes(unsigned int numberOfBytes) { if (m_inFile == 0) throw(BadSoundFileException(m_fileName, "SoundFile::getBytes - no open file handle")); if (m_inFile->eof()) { // Reset the input stream so it's operational again // m_inFile->clear(); throw(BadSoundFileException(m_fileName, "SoundFile::getBytes() - EOF encountered")); } // If this flag is set we dump the buffer and re-read it - // should be set if specialised class is scanning about // when we're doing buffered reads // if (m_loseBuffer) { m_readChunkPtr = -1; m_loseBuffer = false; } std::string rS; char *fileBytes = new char[m_readChunkSize]; int oldLength; while (rS.length() < numberOfBytes && !m_inFile->eof()) { if (m_readChunkPtr == -1) { // clear buffer m_readBuffer = ""; // reset read pointer m_readChunkPtr = 0; // Try to read the whole chunk // m_inFile->read(fileBytes, m_readChunkSize); // file->gcount holds the number of bytes we've actually read // so copy them across into our string // for (int i = 0; i < m_inFile->gcount(); i++) m_readBuffer += (unsigned char)fileBytes[i]; } // Can we fulfill our request at this pass? If so read the // bytes across and we'll exit at the end of this loop. // m_readChunkPtr keeps our position for next time. // if (numberOfBytes - rS.length() <= m_readBuffer.length() - m_readChunkPtr) { oldLength = rS.length(); rS += m_readBuffer.substr(m_readChunkPtr, numberOfBytes - oldLength); m_readChunkPtr += rS.length() - oldLength; } else { // Fill all we can this time and reset the m_readChunkPtr // so that we fetch another chunk of bytes from the file. // rS += m_readBuffer.substr(m_readChunkPtr, m_readChunkSize - m_readChunkPtr); m_readChunkPtr = -1; } // If we're EOF here we must've read and copied across everything // we can do. Reset and break out. // if (m_inFile->eof()) { m_inFile->clear(); break; } } #ifdef DEBUG_SOUNDFILE // complain but return // if (rS.length() < numberOfBytes) std::cerr << "SoundFile::getBytes() buffered - couldn't get all bytes (" << rS.length() << " from " << numberOfBytes << ")" << std::endl; #endif delete [] fileBytes; // Reset and return if EOF // if (m_inFile->eof()) m_inFile->clear(); return rS; } // Write out a sequence of FileBytes to the stream // void SoundFile::putBytes(std::ofstream *file, const std::string oS) { for (size_t i = 0; i < oS.length(); i++) *file << (FileByte) oS[i]; } void SoundFile::putBytes(std::ofstream *file, const char *buffer, size_t n) { file->write(buffer, n); } // Clip off any path from the filename QString SoundFile::getShortFilename() const { QString rS = m_fileName; size_t pos = rS.lastIndexOf("/"); if (pos > 0 && ( pos + 1 ) < rS.length()) rS = rS.mid(pos + 1, rS.length()); return rS; } // Turn a little endian binary std::string into an integer // int SoundFile::getIntegerFromLittleEndian(const std::string &s) { int r = 0; for (size_t i = 0; i < s.length(); i++) { r += (int)(((FileByte)s[i]) << (i * 8)); } return r; } // Turn a value into a little endian string of "length" // std::string SoundFile::getLittleEndianFromInteger(unsigned int value, unsigned int length) { std::string r = ""; do { r += (unsigned char)((long)((value >> (8 * r.length())) & 0xff)); } while (r.length() < length); return r; } int SoundFile::getIntegerFromBigEndian(const std::string &s) { return 0; } std::string SoundFile::getBigEndianFromInteger(unsigned int value, unsigned int length) { std::string r; return r; } }