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BALibrary/examples/BA3_TGA_Pro_2MEM/BA3_TGA_Pro_2MEM.ino

232 lines
6.5 KiB

/*************************************************************************
* This demo uses the BAGuitar library to provide enhanced control of
* the TGA Pro board.
*
* The latest copy of the BA Guitar library can be obtained from
* https://github.com/Blackaddr/BAGuitar
*
* This demo will provide an audio passthrough, as well as exercise the
* MIDI interface.
*
* It will also peform a sweep of SPI MEM0 and MEM1.
*
* NOTE: SPI MEM0 can be used by a Teensy 3.1/3.2/3.5/3.6. SPI MEM1
* can only be used by a Teensy 3.5/3.6 since it is mapped to the extended
* pins.
*
*/
#include <Wire.h>
#include <Audio.h>
#include <MIDI.h>
#include "BAGuitar.h"
MIDI_CREATE_DEFAULT_INSTANCE();
using namespace midi;
using namespace BAGuitar;
AudioInputI2S i2sIn;
AudioOutputI2S i2sOut;
// Audio Thru Connection
AudioConnection patch0(i2sIn,0, i2sOut, 0);
AudioConnection patch1(i2sIn,1, i2sOut, 1);
BAAudioControlWM8731 codecControl;
BAGpio gpio; // access to User LED
BASpiMemory spiMem0(SpiDeviceId::SPI_DEVICE0);
BASpiMemory spiMem1(SpiDeviceId::SPI_DEVICE1);
unsigned long t=0;
// SPI stuff
int spiAddress0 = 0;
int spiData0 = 0xff;
int spiErrorCount0 = 0;
int spiAddress1 = 0;
int spiData1 = 0xff;
int spiErrorCount1 = 0;
void setup() {
MIDI.begin(MIDI_CHANNEL_OMNI);
Serial.begin(57600);
delay(5);
// If the codec was already powered up (due to reboot) power itd own first
codecControl.disable();
delay(100);
AudioMemory(24);
Serial.println("Enabling codec...\n");
codecControl.enable();
delay(100);
}
void loop() {
//////////////////////////////////////////////////////////////////
// Write test data to the SPI Memory 0
//////////////////////////////////////////////////////////////////
for (spiAddress0=0; spiAddress0 <= SPI_MAX_ADDR; spiAddress0++) {
if ((spiAddress0 % 32768) == 0) {
//Serial.print("Writing to ");
//Serial.println(spiAddress0, HEX);
}
//mem0Write(spiAddress0, spiData0);
spiMem0.write(spiAddress0, spiData0);
spiData0 = (spiData0-1) & 0xff;
}
Serial.println("SPI0 writing DONE!");
///////////////////////////////////////////////////////////////////
// Read back from the SPI Memory 0
///////////////////////////////////////////////////////////////////
spiErrorCount0 = 0;
spiAddress0 = 0;
spiData0 = 0xff;
for (spiAddress0=0; spiAddress0 <= SPI_MAX_ADDR; spiAddress0++) {
if ((spiAddress0 % 32768) == 0) {
//Serial.print("Reading ");
//Serial.print(spiAddress0, HEX);
}
//int data = mem0Read(spiAddress0);
int data = spiMem0.read(spiAddress0);
if (data != spiData0) {
spiErrorCount0++;
Serial.println("");
Serial.print("ERROR MEM0: (expected) (actual):");
Serial.print(spiData0, HEX); Serial.print(":");
Serial.println(data, HEX);
delay(100);
}
if ((spiAddress0 % 32768) == 0) {
//Serial.print(", data = ");
//Serial.println(data, HEX);
}
spiData0 = (spiData0-1) & 0xff;
// Break out of test once the error count reaches 10
if (spiErrorCount0 > 10) { break; }
}
if (spiErrorCount0 == 0) { Serial.println("SPI0 TEST PASSED!!!"); }
//////////////////////////////////////////////////////////////////
// Write test data to the SPI Memory 1
//////////////////////////////////////////////////////////////////
for (spiAddress1=0; spiAddress1 <= SPI_MAX_ADDR; spiAddress1++) {
if ((spiAddress1 % 32768) == 0) {
//Serial.print("Writing to ");
//Serial.println(spiAddress1, HEX);
}
//mem0Write(spiAddress1, spiData1);
spiMem1.write(spiAddress1, spiData1);
spiData1 = (spiData1-1) & 0xff;
}
Serial.println("SPI1 writing DONE!");
///////////////////////////////////////////////////////////////////
// Read back from the SPI Memory 1
///////////////////////////////////////////////////////////////////
spiErrorCount1 = 0;
spiAddress1 = 0;
spiData1 = 0xff;
for (spiAddress1=0; spiAddress1 <= SPI_MAX_ADDR; spiAddress1++) {
if ((spiAddress1 % 32768) == 0) {
//Serial.print("Reading ");
//Serial.print(spiAddress1, HEX);
}
int data = spiMem1.read(spiAddress1);
if (data != spiData1) {
spiErrorCount1++;
Serial.println("");
Serial.print("ERROR MEM1: (expected) (actual):");
Serial.print(spiData1, HEX); Serial.print(":");
Serial.println(data, HEX);
delay(100);
}
if ((spiAddress1 % 32768) == 0) {
//Serial.print(", data = ");
//Serial.println(data, HEX);
}
spiData1 = (spiData1-1) & 0xff;
// Break out of test once the error count reaches 10
if (spiErrorCount1 > 10) { break; }
}
if (spiErrorCount1 == 0) { Serial.println("SPI1 TEST PASSED!!!"); }
///////////////////////////////////////////////////////////////////////
// MIDI TESTING
// Connect a loopback cable between the MIDI IN and MIDI OUT on the
// GTA Pro. This test code will periodically send MIDI events which
// will loop back and get printed in the Serial Monitor.
///////////////////////////////////////////////////////////////////////
DataByte note, velocity, channel, d1, d2;
// Send MIDI OUT
int cc, val=0xA, channelSend = 1;
for (cc=32; cc<40; cc++) {
MIDI.sendControlChange(cc, val, channelSend); val++; channelSend++;
delay(100);
MIDI.sendNoteOn(10, 100, channelSend);
delay(100);
}
if (MIDI.read()) { // Is there a MIDI message incoming ?
MidiType type = MIDI.getType();
Serial.println(String("MIDI IS WORKING!!!"));
switch (type) {
case NoteOn:
note = MIDI.getData1();
velocity = MIDI.getData2();
channel = MIDI.getChannel();
if (velocity > 0) {
Serial.println(String("Note On: ch=") + channel + ", note=" + note + ", velocity=" + velocity);
} else {
Serial.println(String("Note Off: ch=") + channel + ", note=" + note);
}
break;
case NoteOff:
note = MIDI.getData1();
velocity = MIDI.getData2();
channel = MIDI.getChannel();
Serial.println(String("Note Off: ch=") + channel + ", note=" + note + ", velocity=" + velocity);
break;
default:
d1 = MIDI.getData1();
d2 = MIDI.getData2();
Serial.println(String("Message, type=") + type + ", data = " + d1 + " " + d2);
}
t = millis();
}
if (millis() - t > 10000) {
t += 10000;
Serial.println("(no MIDI activity, check cables)");
}
// Toggle the USR LED state
gpio.toggleLed();
}