24-02-2019, 11:25
Proszę kolegów o pomoc w modyfikacji kodu Evan Kale, który przy użyciu rejestru przesuwnego 74HC595 adaptuje klawisze keyboardu i wysyła sygnał na port midi. Zrobiłem to w M-Audio Axiom 49 2 generacji w którym padł fabryczny soft. Działa fajnie, ale chciałbym wykorzystać porty analogowy, żeby dodać np. 3 potencjometry i 3 przyciski. Jak się da więcej to też dobrze, bo chciałbym wykorzystać te oryginalne z keyboardu. Proszę o pomoc.
Taki kod:
#define NUM_ROWS 8
#define NUM_COLS 7
#define NOTE_ON_CMD 0x90
#define NOTE_OFF_CMD 0x80
#define NOTE_VELOCITY 127
//MIDI baud rate
#define SERIAL_RATE 31250
// Pin Definitions
// Row input pins
const int row1Pin = 2;
const int row2Pin = 3;
const int row3Pin = 4;
const int row4Pin = 5;
const int row5Pin = 6;
const int row6Pin = 7;
const int row7Pin = 8;
const int row8Pin = 9;
// 74HC595 pins
const int dataPin = 11;
const int latchPin = 12;
const int clockPin = 13;
boolean keyPressed[NUM_ROWS][NUM_COLS];
uint8_t keyToMidiMap[NUM_ROWS][NUM_COLS];
// bitmasks for scanning columns
int bits[] =
{
B1111110,
B1111101,
B1111011,
B1110111,
B1101111,
B1011111,
B0111111,
B1111111
};
void setup()
{
int note = 28;
for(int colCtr = 0; colCtr < NUM_COLS; ++colCtr)
{
for(int rowCtr = 0; rowCtr < NUM_ROWS; ++rowCtr)
{
keyPressed[rowCtr][colCtr] = false;
keyToMidiMap[rowCtr][colCtr] = note;
note++;
}
}
// setup pins output/input mode
pinMode(dataPin, OUTPUT);
pinMode(clockPin, OUTPUT);
pinMode(latchPin, OUTPUT);
pinMode(row1Pin, INPUT);
pinMode(row2Pin, INPUT);
pinMode(row3Pin, INPUT);
pinMode(row4Pin, INPUT);
pinMode(row5Pin, INPUT);
pinMode(row6Pin, INPUT);
pinMode(row7Pin, INPUT);
pinMode(row8Pin, INPUT);
Serial.begin(SERIAL_RATE);
}
void loop()
{
for (int colCtr = 0; colCtr < NUM_COLS; ++colCtr)
{
//scan next column
scanColumn(colCtr);
//get row values at this column
int rowValue[NUM_ROWS];
rowValue[0] = !digitalRead(row1Pin);
rowValue[1] = !digitalRead(row2Pin);
rowValue[2] = !digitalRead(row3Pin);
rowValue[3] = !digitalRead(row4Pin);
rowValue[4] = !digitalRead(row5Pin);
rowValue[5] = !digitalRead(row6Pin);
rowValue[6] = !digitalRead(row7Pin);
rowValue[7] = !digitalRead(row8Pin);
// process keys pressed
for(int rowCtr=0; rowCtr<NUM_ROWS; ++rowCtr)
{
if(rowValue[rowCtr] != 0 && !keyPressed[rowCtr][colCtr])
{
keyPressed[rowCtr][colCtr] = true;
noteOn(rowCtr,colCtr);
}
}
// process keys released
for(int rowCtr=0; rowCtr<NUM_ROWS; ++rowCtr)
{
if(rowValue[rowCtr] == 0 && keyPressed[rowCtr][colCtr])
{
keyPressed[rowCtr][colCtr] = false;
noteOff(rowCtr,colCtr);
}
}
}
}
void scanColumn (int colNum)
{
digitalWrite (latchPin, LOW);
shiftOut (dataPin, clockPin, MSBFIRST, bits [colNum]);
digitalWrite (latchPin, HIGH);
}
void noteOn(int row, int col)
{
Serial.write(NOTE_ON_CMD);
Serial.write(keyToMidiMap[row][col]);
Serial.write(NOTE_VELOCITY);
}
void noteOff(int row, int col)
{
Serial.write(NOTE_OFF_CMD);
Serial.write(keyToMidiMap[row][col]);
Serial.write(NOTE_VELOCITY);
}
Taki kod:
#define NUM_ROWS 8
#define NUM_COLS 7
#define NOTE_ON_CMD 0x90
#define NOTE_OFF_CMD 0x80
#define NOTE_VELOCITY 127
//MIDI baud rate
#define SERIAL_RATE 31250
// Pin Definitions
// Row input pins
const int row1Pin = 2;
const int row2Pin = 3;
const int row3Pin = 4;
const int row4Pin = 5;
const int row5Pin = 6;
const int row6Pin = 7;
const int row7Pin = 8;
const int row8Pin = 9;
// 74HC595 pins
const int dataPin = 11;
const int latchPin = 12;
const int clockPin = 13;
boolean keyPressed[NUM_ROWS][NUM_COLS];
uint8_t keyToMidiMap[NUM_ROWS][NUM_COLS];
// bitmasks for scanning columns
int bits[] =
{
B1111110,
B1111101,
B1111011,
B1110111,
B1101111,
B1011111,
B0111111,
B1111111
};
void setup()
{
int note = 28;
for(int colCtr = 0; colCtr < NUM_COLS; ++colCtr)
{
for(int rowCtr = 0; rowCtr < NUM_ROWS; ++rowCtr)
{
keyPressed[rowCtr][colCtr] = false;
keyToMidiMap[rowCtr][colCtr] = note;
note++;
}
}
// setup pins output/input mode
pinMode(dataPin, OUTPUT);
pinMode(clockPin, OUTPUT);
pinMode(latchPin, OUTPUT);
pinMode(row1Pin, INPUT);
pinMode(row2Pin, INPUT);
pinMode(row3Pin, INPUT);
pinMode(row4Pin, INPUT);
pinMode(row5Pin, INPUT);
pinMode(row6Pin, INPUT);
pinMode(row7Pin, INPUT);
pinMode(row8Pin, INPUT);
Serial.begin(SERIAL_RATE);
}
void loop()
{
for (int colCtr = 0; colCtr < NUM_COLS; ++colCtr)
{
//scan next column
scanColumn(colCtr);
//get row values at this column
int rowValue[NUM_ROWS];
rowValue[0] = !digitalRead(row1Pin);
rowValue[1] = !digitalRead(row2Pin);
rowValue[2] = !digitalRead(row3Pin);
rowValue[3] = !digitalRead(row4Pin);
rowValue[4] = !digitalRead(row5Pin);
rowValue[5] = !digitalRead(row6Pin);
rowValue[6] = !digitalRead(row7Pin);
rowValue[7] = !digitalRead(row8Pin);
// process keys pressed
for(int rowCtr=0; rowCtr<NUM_ROWS; ++rowCtr)
{
if(rowValue[rowCtr] != 0 && !keyPressed[rowCtr][colCtr])
{
keyPressed[rowCtr][colCtr] = true;
noteOn(rowCtr,colCtr);
}
}
// process keys released
for(int rowCtr=0; rowCtr<NUM_ROWS; ++rowCtr)
{
if(rowValue[rowCtr] == 0 && keyPressed[rowCtr][colCtr])
{
keyPressed[rowCtr][colCtr] = false;
noteOff(rowCtr,colCtr);
}
}
}
}
void scanColumn (int colNum)
{
digitalWrite (latchPin, LOW);
shiftOut (dataPin, clockPin, MSBFIRST, bits [colNum]);
digitalWrite (latchPin, HIGH);
}
void noteOn(int row, int col)
{
Serial.write(NOTE_ON_CMD);
Serial.write(keyToMidiMap[row][col]);
Serial.write(NOTE_VELOCITY);
}
void noteOff(int row, int col)
{
Serial.write(NOTE_OFF_CMD);
Serial.write(keyToMidiMap[row][col]);
Serial.write(NOTE_VELOCITY);
}