Synthesizer based on the Unzen / Nucleo F746ZG
Dependencies: amakusa mbed-dsp mbed shimabara ukifune unzen_nucleo_f746
Fork of skeleton_unzen_nucleo_f746 by
雲仙フレームワークのテストとして作っているプロジェクトです。中身はどんどん変っていきます。 説明はDSP空挺団の「シンセサイザー」カテゴリーを参照してください。初回は「ドッグフードを食べる」です。
main.cpp
- Committer:
- shorie
- Date:
- 2017-01-27
- Revision:
- 7:e86c645231ff
- Parent:
- 6:486b1cb03e61
- Child:
- 8:d8d1776e865b
File content as of revision 7:e86c645231ff:
#include "mbed.h" // Note : Do not touch the "unzen dependent" part. // Configure the "project dependent" part. /************************** unzen dependent constants. ************************/ #define CODEC_I2C_ADDR 0x38 // Address of the ADAU-1361A /*========================= Project Dependent Constants ======================*/ #define BLOCKSIZE 16 // number of the sample to be processed at once. #define FS shimabara::Fs_48 // Fs can be Fs_32, Fs_441, Fs_48, Fs_96 /************************** unzen dependent include. **************************/ #include "unzen.h" // audio framework include file #include "umb_adau1361a.h" // audio codec contoler include file #include "amakusa.h" // audio signal processing class library. #include "ukifune.h" // UI board support routines /*========================= project dependent include. =======================*/ #include "signal_processing.h" /************************* Unzen Dependent Global Variables *******************/ // I2C is essential to talk with ADAU1361 I2C i2c(D14, D15); // create an audio codec contoler shimabara::UMB_ADAU1361A codec(FS, i2c, CODEC_I2C_ADDR ); // create an audio framework by singlton pattern unzen::Framework audio; /*========================= project dependent Global Variable. ===============*/ // create a pointer to the signal processing object. SignalProcessing * process; /************************* Unzen Dependent Function Prototype *****************/ // for system usage. Do not care. void initialize_system(void); /*========================= Main program. ====================================*/ int main() { // start audio. Do not touch initialize_system(); // main loop. Signal processing is done in background. while(1) { // place your foreground program here. process->set_volume( ukifune::get_volume(0) ); // you have to call tick() every 20mS-50mS if you need get_volume() wait(0.05); ukifune::tick(); } } // End of main /*========================= project dependent Signal Processing. ============*/ // customer signal processing initialization call back. void init_callback( unsigned int block_size // block size [sample] ) { // place initialization code here process = new SignalProcessing( block_size ); } // end of init_callback // customer signal processing call back. void process_callback( float rx_left_buffer[], // array of the left input samples float rx_right_buffer[], // array of the right input samples float tx_left_buffer[], // place to write the left output samples float tx_right_buffer[], // place to write the left output samples unsigned int block_size // block size [sample] ) { // place signal processing code here process->run( rx_left_buffer, rx_right_buffer, tx_left_buffer, tx_right_buffer, block_size ); } // End of process_callback /************************* Unzen Dependent Function implementation ************/ void initialize_system(void) { // Set I3C clock to 100kHz i2c.frequency( 100000 ); // Configure the optional block size of signal processing. By default, it is 1[Sample] audio.set_block_size(BLOCKSIZE); // Start UI module. ukifune::init( & audio ); // Start the ADAU1361. Audio codec starts to generate the I2C signals codec.start(); // Start the audio framework on ARM processor. audio.start( init_callback, process_callback); // path the initializaiton and process call back to framework // Setup initial analog gain codec.set_hp_output_gain( 0, 0 ); codec.set_line_output_gain( 0, 0 ); }