//////////////////////////////////////////////////////////// // // 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_SOUNDBUFFER_HPP #define SFML_SOUNDBUFFER_HPP //////////////////////////////////////////////////////////// // Headers //////////////////////////////////////////////////////////// #include #include #include #include #include #include namespace sf { class Sound; class InputSoundFile; class InputStream; //////////////////////////////////////////////////////////// /// \brief Storage for audio samples defining a sound /// //////////////////////////////////////////////////////////// class SFML_AUDIO_API SoundBuffer : AlResource { public: //////////////////////////////////////////////////////////// /// \brief Default constructor /// //////////////////////////////////////////////////////////// SoundBuffer(); //////////////////////////////////////////////////////////// /// \brief Copy constructor /// /// \param copy Instance to copy /// //////////////////////////////////////////////////////////// SoundBuffer(const SoundBuffer& copy); //////////////////////////////////////////////////////////// /// \brief Destructor /// //////////////////////////////////////////////////////////// ~SoundBuffer(); //////////////////////////////////////////////////////////// /// \brief Load the sound buffer from a file /// /// See the documentation of sf::InputSoundFile for the list /// of supported formats. /// /// \param filename Path of the sound file to load /// /// \return True if loading succeeded, false if it failed /// /// \see loadFromMemory, loadFromStream, loadFromSamples, saveToFile /// //////////////////////////////////////////////////////////// bool loadFromFile(const std::string& filename); //////////////////////////////////////////////////////////// /// \brief Load the sound buffer from a file in memory /// /// See the documentation of sf::InputSoundFile for the list /// of supported formats. /// /// \param data Pointer to the file data in memory /// \param sizeInBytes Size of the data to load, in bytes /// /// \return True if loading succeeded, false if it failed /// /// \see loadFromFile, loadFromStream, loadFromSamples /// //////////////////////////////////////////////////////////// bool loadFromMemory(const void* data, std::size_t sizeInBytes); //////////////////////////////////////////////////////////// /// \brief Load the sound buffer from a custom stream /// /// See the documentation of sf::InputSoundFile for the list /// of supported formats. /// /// \param stream Source stream to read from /// /// \return True if loading succeeded, false if it failed /// /// \see loadFromFile, loadFromMemory, loadFromSamples /// //////////////////////////////////////////////////////////// bool loadFromStream(InputStream& stream); //////////////////////////////////////////////////////////// /// \brief Load the sound buffer from an array of audio samples /// /// The assumed format of the audio samples is 16 bits signed integer /// (sf::Int16). /// /// \param samples Pointer to the array of samples in memory /// \param sampleCount Number of samples in the array /// \param channelCount Number of channels (1 = mono, 2 = stereo, ...) /// \param sampleRate Sample rate (number of samples to play per second) /// /// \return True if loading succeeded, false if it failed /// /// \see loadFromFile, loadFromMemory, saveToFile /// //////////////////////////////////////////////////////////// bool loadFromSamples(const Int16* samples, Uint64 sampleCount, unsigned int channelCount, unsigned int sampleRate); //////////////////////////////////////////////////////////// /// \brief Save the sound buffer to an audio file /// /// See the documentation of sf::OutputSoundFile for the list /// of supported formats. /// /// \param filename Path of the sound file to write /// /// \return True if saving succeeded, false if it failed /// /// \see loadFromFile, loadFromMemory, loadFromSamples /// //////////////////////////////////////////////////////////// bool saveToFile(const std::string& filename) const; //////////////////////////////////////////////////////////// /// \brief Get the array of audio samples stored in the buffer /// /// The format of the returned samples is 16 bits signed integer /// (sf::Int16). The total number of samples in this array /// is given by the getSampleCount() function. /// /// \return Read-only pointer to the array of sound samples /// /// \see getSampleCount /// //////////////////////////////////////////////////////////// const Int16* getSamples() const; //////////////////////////////////////////////////////////// /// \brief Get the number of samples stored in the buffer /// /// The array of samples can be accessed with the getSamples() /// function. /// /// \return Number of samples /// /// \see getSamples /// //////////////////////////////////////////////////////////// Uint64 getSampleCount() const; //////////////////////////////////////////////////////////// /// \brief Get the sample rate of the sound /// /// The sample rate is the number of samples played per second. /// The higher, the better the quality (for example, 44100 /// samples/s is CD quality). /// /// \return Sample rate (number of samples per second) /// /// \see getChannelCount, getDuration /// //////////////////////////////////////////////////////////// unsigned int getSampleRate() const; //////////////////////////////////////////////////////////// /// \brief Get the number of channels used by the sound /// /// If the sound is mono then the number of channels will /// be 1, 2 for stereo, etc. /// /// \return Number of channels /// /// \see getSampleRate, getDuration /// //////////////////////////////////////////////////////////// unsigned int getChannelCount() const; //////////////////////////////////////////////////////////// /// \brief Get the total duration of the sound /// /// \return Sound duration /// /// \see getSampleRate, getChannelCount /// //////////////////////////////////////////////////////////// Time getDuration() const; //////////////////////////////////////////////////////////// /// \brief Overload of assignment operator /// /// \param right Instance to assign /// /// \return Reference to self /// //////////////////////////////////////////////////////////// SoundBuffer& operator =(const SoundBuffer& right); private: friend class Sound; //////////////////////////////////////////////////////////// /// \brief Initialize the internal state after loading a new sound /// /// \param file Sound file providing access to the new loaded sound /// /// \return True on successful initialization, false on failure /// //////////////////////////////////////////////////////////// bool initialize(InputSoundFile& file); //////////////////////////////////////////////////////////// /// \brief Update the internal buffer with the cached audio samples /// /// \param channelCount Number of channels /// \param sampleRate Sample rate (number of samples per second) /// /// \return True on success, false if any error happened /// //////////////////////////////////////////////////////////// bool update(unsigned int channelCount, unsigned int sampleRate); //////////////////////////////////////////////////////////// /// \brief Add a sound to the list of sounds that use this buffer /// /// \param sound Sound instance to attach /// //////////////////////////////////////////////////////////// void attachSound(Sound* sound) const; //////////////////////////////////////////////////////////// /// \brief Remove a sound from the list of sounds that use this buffer /// /// \param sound Sound instance to detach /// //////////////////////////////////////////////////////////// void detachSound(Sound* sound) const; //////////////////////////////////////////////////////////// // Types //////////////////////////////////////////////////////////// typedef std::set SoundList; ///< Set of unique sound instances //////////////////////////////////////////////////////////// // Member data //////////////////////////////////////////////////////////// unsigned int m_buffer; ///< OpenAL buffer identifier std::vector m_samples; ///< Samples buffer Time m_duration; ///< Sound duration mutable SoundList m_sounds; ///< List of sounds that are using this buffer }; } // namespace sf #endif // SFML_SOUNDBUFFER_HPP //////////////////////////////////////////////////////////// /// \class sf::SoundBuffer /// \ingroup audio /// /// A sound buffer holds the data of a sound, which is /// an array of audio samples. A sample is a 16 bits signed integer /// that defines the amplitude of the sound at a given time. /// The sound is then reconstituted by playing these samples at /// a high rate (for example, 44100 samples per second is the /// standard rate used for playing CDs). In short, audio samples /// are like texture pixels, and a sf::SoundBuffer is similar to /// a sf::Texture. /// /// A sound buffer can be loaded from a file (see loadFromFile() /// for the complete list of supported formats), from memory, from /// a custom stream (see sf::InputStream) or directly from an array /// of samples. It can also be saved back to a file. /// /// Sound buffers alone are not very useful: they hold the audio data /// but cannot be played. To do so, you need to use the sf::Sound class, /// which provides functions to play/pause/stop the sound as well as /// changing the way it is outputted (volume, pitch, 3D position, ...). /// This separation allows more flexibility and better performances: /// indeed a sf::SoundBuffer is a heavy resource, and any operation on it /// is slow (often too slow for real-time applications). On the other /// side, a sf::Sound is a lightweight object, which can use the audio data /// of a sound buffer and change the way it is played without actually /// modifying that data. Note that it is also possible to bind /// several sf::Sound instances to the same sf::SoundBuffer. /// /// It is important to note that the sf::Sound instance doesn't /// copy the buffer that it uses, it only keeps a reference to it. /// Thus, a sf::SoundBuffer must not be destructed while it is /// used by a sf::Sound (i.e. never write a function that /// uses a local sf::SoundBuffer instance for loading a sound). /// /// Usage example: /// \code /// // Declare a new sound buffer /// sf::SoundBuffer buffer; /// /// // Load it from a file /// if (!buffer.loadFromFile("sound.wav")) /// { /// // error... /// } /// /// // Create a sound source and bind it to the buffer /// sf::Sound sound1; /// sound1.setBuffer(buffer); /// /// // Play the sound /// sound1.play(); /// /// // Create another sound source bound to the same buffer /// sf::Sound sound2; /// sound2.setBuffer(buffer); /// /// // Play it with a higher pitch -- the first sound remains unchanged /// sound2.setPitch(2); /// sound2.play(); /// \endcode /// /// \see sf::Sound, sf::SoundBufferRecorder /// ////////////////////////////////////////////////////////////