/* Spectral Noise reduction test program. * * The example takes sound in from both the I2S and USB of the Teensy/audio-daughtercard, * processes it, and sends it back out the I2S/headphone ports. * Every 10 seconds it switches from Spectral processing to data-passthrough and back, * to aid comparison. * Some information is printed on the serial monitor. * * This example requires the Teensy Board 'USB Type' in the Arduino Tools menu to be set * to a type that includes 'Audio', and ideally 'Serial' as well. Tested with * 'Serial+MIDI+Audio'. * If you do not set 'Audio', you will get a compliation errors similar to: * "... OpenAudio_ArduinoLibrary/USB_Audio_F32.h: In member function 'virtual void AudioOutputUSB_F32::update()':" * "... OpenAudio_ArduinoLibrary/USB_Audio_F32.h:139:3: error: 'usb_out' was not declared in this scope" * * MIT License. use at your own risk. */ #include "OpenAudio_ArduinoLibrary.h" #include "AudioStream_F32.h" #include "USB_Audio_F32.h" #include #include #include #include #include // GUItool: begin automatically generated code AudioInputI2S_F32 audioInI2S1; //xy=117,343 AudioInputUSB_F32 audioInUSB1; //xy=146,397 AudioMixer4_F32 input_mixer; //xy=370,321 AudioSpectralDenoise_F32 Spectral; //xy=852,250 AudioMixer4_F32 output_mixer; //xy=993,296 AudioSwitch4_OA_F32 processing_switch; AudioOutputI2S_F32 audioOutI2S1; //xy=1257,367 AudioOutputUSB_F32 audioOutUSB1; //xy=1261,418 //Inputs - mixed into one stream AudioConnection_F32 patchCord1(audioInI2S1, 0, input_mixer, 0); AudioConnection_F32 patchCord2(audioInUSB1, 0, input_mixer, 1); //route through a switch, so we can switch Spectral in/out AudioConnection_F32 patchCord3(input_mixer, 0, processing_switch, 0); //First route is direct - direct to the output mixer AudioConnection_F32 patchCord4(processing_switch, 0, output_mixer, 0); //Second route is through Spectral to the output mixer AudioConnection_F32 patchCord5(processing_switch, 1, Spectral, 0); AudioConnection_F32 patchCord6(Spectral, 0, output_mixer, 1); //And finally output the mixer to the output channels AudioConnection_F32 patchCord7(output_mixer, 0, audioOutI2S1, 0); AudioConnection_F32 patchCord8(output_mixer, 0, audioOutI2S1, 1); AudioConnection_F32 patchCord9(output_mixer, 0, audioOutUSB1, 0); AudioConnection_F32 patchCord10(output_mixer, 0, audioOutUSB1, 1); AudioControlSGTL5000 sgtl5000_1; //xy=519,146 // GUItool: end automatically generated code AudioSettings_F32 audio_settings(AUDIO_SAMPLE_RATE_EXACT, AUDIO_BLOCK_SAMPLES); int current_cycle = 0; //Choose how we route the audio - to process or not static void spectralSetup(void){ //Use a 1024 FFT in this example if (Spectral.setup(audio_settings, 1024) < 0 ) { Serial.println("Failed to setup Spectral"); } else { Serial.println("Spectral setup OK"); } Serial.flush(); } //The setup function is called once when the system starts up void setup(void) { //Start the USB serial link (to aid debugging) Serial.begin(115200); delay(500); Serial.println("Setup starting..."); //Allocate dynamically shuffled memory for the audio subsystem AudioMemory(30); AudioMemory_F32(30); Serial.println("Calling Spectral setup"); spectralSetup(); Serial.println("Spectral Setup done"); sgtl5000_1.enable(); sgtl5000_1.unmuteHeadphone(); sgtl5000_1.volume(0.5); //End of setup Serial.println("Setup complete."); }; //After setup(), the loop function loops forever. //Note that the audio modules are called in the background. //They do not need to be serviced by the loop() function. void loop(void) { // every 'n' seconds move to the next cycle of processing. if ( ((millis()/1000) % 10) == 0 ) { current_cycle++; if (current_cycle >= 2) current_cycle = 0; switch( current_cycle ) { case 0: Serial.println("Passthrough"); processing_switch.setChannel(0); break; case 1: Serial.println("Run Spectral NR"); processing_switch.setChannel(1); break; default: current_cycle = 0; //oops - reset to start break; } } //Nap - we don't need to hard-spin... delay(1000); };