/* rbSFML - Copyright (c) 2010 Henrik Valter Vogelius Hansson - groogy@groogy.se * 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. */ #include "SoundBufferRecorder.hpp" #include "main.hpp" #include VALUE globalSoundBufferRecorderClass; /* External classes */ extern VALUE globalSoundRecorderClass; extern VALUE globalSoundBufferClass; class rbSoundBufferRecorder : public sf::SoundBufferRecorder { public: rbSoundBufferRecorder() { } void Init( VALUE rubySelf ) { mySelf = rubySelf; myOnStartID = rb_intern( "onStart" ); myOnStopID = rb_intern( "onStop" ); myOnProcessSamplesID = rb_intern( "onProcessSamples" ); } protected: virtual bool OnStart() { if( rb_respond_to( mySelf, myOnStartID ) == 0 ) { return true; } else { if( rb_funcall( mySelf, myOnStartID, 0 ) == Qfalse ) { return false; } else { return true; } } } virtual void OnStop() { if( rb_respond_to( mySelf, myOnStopID ) != 0 ) { rb_funcall( mySelf, myOnStopID, 0 ); } } virtual bool OnProcessSamples( const sf::Int16 *someSamples, std::size_t someCount ) { VALUE samples = rb_ary_new2( someCount ); for(unsigned long index = 0; index < someCount; index++) { rb_ary_store( samples, index, INT2FIX( someSamples[index] ) ); } if( rb_funcall( mySelf, myOnProcessSamplesID, 2, samples, INT2FIX( someCount ) ) == Qfalse ) { return false; } else { return true; } } VALUE mySelf; ID myOnStartID; ID myOnStopID; ID myOnProcessSamplesID; }; static void SoundBufferRecorder_Free( rbSoundBufferRecorder * anObject ) { delete anObject; } /* call-seq: * sound_buffer_recorder.getBuffer() -> sound_buffer * * Get the sound buffer containing the captured audio data. * * The sound buffer is valid only after the capture has ended. This function provides a read-only access to the internal * sound buffer, but it can be copied if you need to make any modification to it. */ static VALUE SoundBufferRecorder_GetBuffer( VALUE self ) { sf::SoundBufferRecorder *object = NULL; Data_Get_Struct( self, sf::SoundBufferRecorder, object ); const sf::SoundBuffer &buffer = object->GetBuffer(); VALUE rbData = Data_Wrap_Struct( globalSoundBufferClass, 0, 0, const_cast< sf::SoundBuffer * >( &buffer ) ); rb_iv_set( rbData, "@__owner_ref", self ); return rbData; } /* call-seq: * SoundBufferRecorder.new() -> sound_buffer_recorder * * Creates a sound buffer recorder instance for us. */ static VALUE SoundBufferRecorder_Alloc( VALUE aKlass ) { rbSoundBufferRecorder *object = new rbSoundBufferRecorder(); return Data_Wrap_Struct( aKlass, 0, SoundBufferRecorder_Free, object ); } void Init_SoundBufferRecorder( void ) { /* SFML namespace which contains the classes of this module. */ VALUE sfml = rb_define_module( "SFML" ); /* Abstract base class for capturing sound data. * * SFML::SoundRecorder provides a simple interface to access the audio recording capabilities of the computer * (the microphone). * * As an abstract base class, it only cares about capturing sound samples, the task of making something useful with * them is left to the derived class. Note that SFML provides a built-in specialization for saving the captured data * to a sound buffer (see sf::SoundBufferRecorder). * * A derived class has only one virtual function to override: * * - onProcessSamples provides the new chunks of audio samples while the capture happens * * Moreover, two additionnal virtual functions can be overriden as well if necessary: * * - onStart is called before the capture happens, to perform custom initializations * - onStop is called after the capture ends, to perform custom cleanup * * The audio capture feature may not be supported or activated on every platform, thus it is recommended to check * its availability with the isAvailable() function. If it returns false, then any attempt to use an audio recorder * will fail. * * It is important to note that the audio capture happens in a separate thread, so that it doesn't block the rest of * the program. In particular, the OnProcessSamples and OnStop virtual functions (but not OnStart) will be called from * this separate thread. It is important to keep this in mind, because you may have to take care of synchronization * issues if you share data between threads. * * Usage example: * * class CustomRecorder < SFML::SoundRecorder * def onStart() # optional * # Initialize whatever has to be done before the capture starts * ... * * # Return true to start playing * return true * end * * def onProcessSamples( samples, samplesCount ) * # Do something with the new chunk of samples (store them, send them, ...) * ... * * # Return true to continue playing * return true * end * * def onStop() # optional * # Clean up whatever has to be done after the capture ends * ... * end * end * * # Usage * if CustomRecorder.isAvailable() * recorder = CustomRecorder.new * recorder.start() * ... * recorder.stop() * end */ globalSoundBufferRecorderClass = rb_define_class_under( sfml, "SoundBufferRecorder", globalSoundRecorderClass ); // Class methods //rb_define_singleton_method( globalSoundBufferRecorderClass, "new", SoundBufferRecorder_New, -1 ); rb_define_alloc_func( globalSoundBufferRecorderClass, SoundBufferRecorder_Alloc ); // Instance methods rb_define_method( globalSoundRecorderClass, "getBuffer", SoundBufferRecorder_GetBuffer, 0 ); // Instance Aliases rb_define_alias( globalSoundRecorderClass, "buffer", "getBuffer" ); }