uilleann/pipe.cpp

99 lines
2.3 KiB
C++

#include "pipe.h"
#include "fingering.h"
#include "tuning.h"
// Kludge time: this is something I did just to make my breadboard look nicer.
#define KEY_OFFSET 2
#define CLOSEDVAL 0x30
#define OPENVAL 0x70
#define GLISSANDO_STEPS (OPENVAL - CLOSEDVAL)
Pipe::Pipe() {
keysLast = 0;
}
bool Pipe::Init() {
// Capacative touch sensor
if (!capSensor.begin(0x5A)) {
return false;
}
// Proximity sensor
if (paj7620Init()) {
return false;
}
// Bag button
bagSensor.begin();
// This library takes the entire program out if you poll it 5-40 times without anything connected
bag_enabled = bagSensor.isConnected();
return true;
}
void Pipe::Update() {
uint8_t glissandoKeys = 0;
// Read the bag state, if there's a bag.
// if there isn't a bag, don't try, or this library will crash the program.
if (bag_enabled) {
bag = bagSensor.isPressed();
} else {
bag = false;
}
// 0x6c is actually 8 bytes, but all 8 are always the same...
paj7620ReadReg(0x6c, 1, &kneeClosedness);
keysLast = keys;
keys = 0;
glissandoKeys = 0;
for (int i = 0; i < 8; i++) {
uint16_t val = max(capSensor.filteredData(i + KEY_OFFSET), CLOSEDVAL);
float openness = ((val - CLOSEDVAL) / float(GLISSANDO_STEPS));
// keys = all keys which are at least touched
// glissandoKeys = all keys which are fully closed
// The glissando operation computes the difference.
if (openness < 1.0) {
glissandoOpenness = max(glissandoOpenness, openness);
bitSet(keys, i);
}
if (openness == 0.0) {
bitSet(glissandoKeys, i);
}
}
// Look up notes in the big table
struct Fingering f = uilleann_matrix[keys];
struct Fingering gf = uilleann_matrix[glissandoKeys];
note = f.note;
glissandoNote = gf.note;
// Was the high bit set? That indicates "alternate fingering", which sounds different.
altFingering = f.alt;
// If the bag is squished, jump up an octave
// But only if the left thumb is down!
if (bag && (keys & bit(7))) {
note += NOTE_OCTAVE;
glissandoNote += NOTE_OCTAVE;
}
// All keys closed + knee = no sound
silent = ((kneeClosedness > 240) && (keys == 0xff));
}
bool Pipe::Pressed(uint8_t key) {
return bitRead(keys, key);
}
bool Pipe::JustPressed(uint8_t key) {
if (bitRead(keys, key)) {
return !bitRead(keysLast, key);
}
return false;
}