//////////////////////////////////////////////////////////// // // SFML - Simple and Fast Multimedia Library // Copyright (C) 2007-2015 Laurent Gomila (laurent@sfml-dev.org) // // This software is provided 'as-is', without any express or implied warranty. // In no event will the authors be held liable for any damages arising from the use of this software. // // Permission is granted to anyone to use this software for any purpose, // including commercial applications, and to alter it and redistribute it freely, // subject to the following restrictions: // // 1. The origin of this software must not be misrepresented; // you must not claim that you wrote the original software. // If you use this software in a product, an acknowledgment // in the product documentation would be appreciated but is not required. // // 2. Altered source versions must be plainly marked as such, // and must not be misrepresented as being the original software. // // 3. This notice may not be removed or altered from any source distribution. // //////////////////////////////////////////////////////////// #ifndef SFML_INPUTSOUNDFILE_HPP #define SFML_INPUTSOUNDFILE_HPP //////////////////////////////////////////////////////////// // Headers //////////////////////////////////////////////////////////// #include #include #include #include namespace sf { class InputStream; class SoundFileReader; //////////////////////////////////////////////////////////// /// \brief Provide read access to sound files /// //////////////////////////////////////////////////////////// class SFML_AUDIO_API InputSoundFile : NonCopyable { public: //////////////////////////////////////////////////////////// /// \brief Default constructor /// //////////////////////////////////////////////////////////// InputSoundFile(); //////////////////////////////////////////////////////////// /// \brief Destructor /// //////////////////////////////////////////////////////////// ~InputSoundFile(); //////////////////////////////////////////////////////////// /// \brief Open a sound file from the disk for reading /// /// The supported audio formats are: WAV, OGG/Vorbis, FLAC. /// /// \param filename Path of the sound file to load /// /// \return True if the file was successfully opened /// //////////////////////////////////////////////////////////// bool openFromFile(const std::string& filename); //////////////////////////////////////////////////////////// /// \brief Open a sound file in memory for reading /// /// The supported audio formats are: WAV, OGG/Vorbis, FLAC. /// /// \param data Pointer to the file data in memory /// \param sizeInBytes Size of the data to load, in bytes /// /// \return True if the file was successfully opened /// //////////////////////////////////////////////////////////// bool openFromMemory(const void* data, std::size_t sizeInBytes); //////////////////////////////////////////////////////////// /// \brief Open a sound file from a custom stream for reading /// /// The supported audio formats are: WAV, OGG/Vorbis, FLAC. /// /// \param stream Source stream to read from /// /// \return True if the file was successfully opened /// //////////////////////////////////////////////////////////// bool openFromStream(InputStream& stream); //////////////////////////////////////////////////////////// /// \brief Open the sound file from the disk for writing /// /// \param filename Path of the sound file to write /// \param channelCount Number of channels in the sound /// \param sampleRate Sample rate of the sound /// /// \return True if the file was successfully opened /// //////////////////////////////////////////////////////////// bool openForWriting(const std::string& filename, unsigned int channelCount, unsigned int sampleRate); //////////////////////////////////////////////////////////// /// \brief Get the total number of audio samples in the file /// /// \return Number of samples /// //////////////////////////////////////////////////////////// Uint64 getSampleCount() const; //////////////////////////////////////////////////////////// /// \brief Get the number of channels used by the sound /// /// \return Number of channels (1 = mono, 2 = stereo) /// //////////////////////////////////////////////////////////// unsigned int getChannelCount() const; //////////////////////////////////////////////////////////// /// \brief Get the sample rate of the sound /// /// \return Sample rate, in samples per second /// //////////////////////////////////////////////////////////// unsigned int getSampleRate() const; //////////////////////////////////////////////////////////// /// \brief Get the total duration of the sound file /// /// This function is provided for convenience, the duration is /// deduced from the other sound file attributes. /// /// \return Duration of the sound file /// //////////////////////////////////////////////////////////// Time getDuration() const; //////////////////////////////////////////////////////////// /// \brief Change the current read position to the given sample offset /// /// This function takes a sample offset to provide maximum /// precision. If you need to jump to a given time, use the /// other overload. /// /// If the given offset exceeds to total number of samples, /// this function jumps to the end of the sound file. /// /// \param sampleOffset Index of the sample to jump to, relative to the beginning /// //////////////////////////////////////////////////////////// void seek(Uint64 sampleOffset); //////////////////////////////////////////////////////////// /// \brief Change the current read position to the given time offset /// /// Using a time offset is handy but imprecise. If you need an accurate /// result, consider using the overload which takes a sample offset. /// /// If the given time exceeds to total duration, this function jumps /// to the end of the sound file. /// /// \param timeOffset Time to jump to, relative to the beginning /// //////////////////////////////////////////////////////////// void seek(Time timeOffset); //////////////////////////////////////////////////////////// /// \brief Read audio samples from the open file /// /// \param samples Pointer to the sample array to fill /// \param maxCount Maximum number of samples to read /// /// \return Number of samples actually read (may be less than \a maxCount) /// //////////////////////////////////////////////////////////// Uint64 read(Int16* samples, Uint64 maxCount); private: //////////////////////////////////////////////////////////// /// \brief Close the current file /// //////////////////////////////////////////////////////////// void close(); //////////////////////////////////////////////////////////// // Member data //////////////////////////////////////////////////////////// SoundFileReader* m_reader; ///< Reader that handles I/O on the file's format InputStream* m_stream; ///< Input stream used to access the file's data bool m_streamOwned; ///< Is the stream internal or external? Uint64 m_sampleCount; ///< Total number of samples in the file unsigned int m_channelCount; ///< Number of channels of the sound unsigned int m_sampleRate; ///< Number of samples per second }; } // namespace sf #endif // SFML_INPUTSOUNDFILE_HPP //////////////////////////////////////////////////////////// /// \class sf::InputSoundFile /// \ingroup audio /// /// This class decodes audio samples from a sound file. It is /// used internally by higher-level classes such as sf::SoundBuffer /// and sf::Music, but can also be useful if you want to process /// or analyze audio files without playing them, or if you want to /// implement your own version of sf::Music with more specific /// features. /// /// Usage example: /// \code /// // Open a sound file /// sf::InputSoundFile file; /// if (!file.openFromFile("music.ogg")) /// /* error */; /// /// // Print the sound attributes /// std::cout << "duration: " << file.getDuration().asSeconds() << std::endl; /// std::cout << "channels: " << file.getChannelCount() << std::endl; /// std::cout << "sample rate: " << file.getSampleRate() << std::endl; /// std::cout << "sample count: " << file.getSampleCount() << std::endl; /// /// // Read and process batches of samples until the end of file is reached /// sf::Int16 samples[1024]; /// sf::Uint64 count; /// do /// { /// count = file.read(samples, 1024); /// /// // process, analyze, play, convert, or whatever /// // you want to do with the samples... /// } /// while (count > 0); /// \endcode /// /// \see sf::SoundFileReader, sf::OutputSoundFile /// ////////////////////////////////////////////////////////////