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Adafruit_NeoKey_1x4.cpp
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Adafruit_NeoKey_1x4.cpp
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#include "Adafruit_NeoKey_1x4.h"
/**************************************************************************/
/*!
@brief Class constructor
@param addr the I2C address this neotrellis object uses
@param i2c_bus the I2C bus connected to this neokey, defaults to "Wire"
*/
/**************************************************************************/
Adafruit_NeoKey_1x4::Adafruit_NeoKey_1x4(uint8_t addr, TwoWire *i2c_bus)
: Adafruit_seesaw(i2c_bus), pixels(NEOKEY_1X4_KEYS, NEOKEY_1X4_NEOPIN,
NEO_GRB + NEO_KHZ800, i2c_bus) {
for (int i = 0; i < NEOKEY_1X4_KEYS; i++) {
_callbacks[i] = NULL;
}
this->_addr = addr;
}
/**************************************************************************/
/*!
@brief Begin communication with the RGB trellis.
@param addr optional i2c address where the device can be found. Defaults to
NEOKEY_1X4_ADDR
@param flow optional flow control pin
@returns true on success, false on error.
*/
/**************************************************************************/
bool Adafruit_NeoKey_1x4::begin(uint8_t addr, int8_t flow) {
_addr = addr;
bool ret = pixels.begin(addr, flow);
if (!ret)
return ret;
ret = Adafruit_seesaw::begin(addr, flow, false);
if (!ret)
return ret;
pixels.setBrightness(40);
pixels.show(); // Initialize all pixels to 'off'
delay(5);
pinModeBulk(NEOKEY_1X4_BUTTONMASK, INPUT_PULLUP);
setGPIOInterrupts(NEOKEY_1X4_BUTTONMASK, 1);
return ret;
}
/**************************************************************************/
/*!
@brief register a callback function on the passed key.
@param key the key number to register the callback on
@param cb the callback function that should be called when an event on that
key happens
*/
/**************************************************************************/
void Adafruit_NeoKey_1x4::registerCallback(uint8_t key,
NeoKey1x4Callback (*cb)(keyEvent)) {
_callbacks[key] = cb;
}
/**************************************************************************/
/*!
@brief unregister a callback on a given key
@param key the key number the callback is currently mapped to.
*/
/**************************************************************************/
void Adafruit_NeoKey_1x4::unregisterCallback(uint8_t key) {
_callbacks[key] = NULL;
}
/**************************************************************************/
/*!
@brief Read key GPIO pins, possibly generating callback events
@returns Byte with the bottom 4 bits corresponding to each keypress status
*/
/**************************************************************************/
uint8_t Adafruit_NeoKey_1x4::read(void) {
uint32_t buttons = digitalReadBulk(NEOKEY_1X4_BUTTONMASK);
buttons ^= NEOKEY_1X4_BUTTONMASK;
buttons &= NEOKEY_1X4_BUTTONMASK;
buttons >>= NEOKEY_1X4_BUTTONA;
uint8_t just_pressed = (buttons ^ last_buttons) & buttons;
uint8_t just_released = (buttons ^ last_buttons) & ~buttons;
if (just_pressed | just_released) {
// Serial.print("pressed 0x"); Serial.println(just_pressed, HEX);
// Serial.print("released 0x"); Serial.println(just_released, HEX);
for (int b = 0; b < 4; b++) {
if (just_pressed & (1 << b)) { // if button b is pressed
if (_callbacks[b] != NULL) {
keyEvent evt = {SEESAW_KEYPAD_EDGE_RISING, (uint16_t)b};
_callbacks[b](evt);
}
}
if (just_released & (1 << b)) { // if button b is released
if (_callbacks[b] != NULL) {
keyEvent evt = {SEESAW_KEYPAD_EDGE_FALLING, (uint16_t)b};
_callbacks[b](evt);
}
}
}
}
last_buttons = buttons;
return buttons;
}
/**************************************************************************/
/*!
@brief class constructor
@param neokeys pointer to a multidimensional array of Adafruit_NeoKey_1x4
objects. these object must have their I2C addresses specified in the class
constructors.
@param rows the number of individual neokey boards in the Y direction
of your matrix.
@param cols the number of individual neokey boards in the X direction
of your matrix.
*/
/**************************************************************************/
Adafruit_MultiNeoKey1x4::Adafruit_MultiNeoKey1x4(Adafruit_NeoKey_1x4 *neokeys,
uint8_t rows, uint8_t cols) {
this->_rows = rows;
this->_cols = cols;
this->_neokeys = neokeys;
}
/**************************************************************************/
/*!
@brief begin communication with the matrix of neotrellis boards.
@returns true on success, false otherwise.
*/
/**************************************************************************/
bool Adafruit_MultiNeoKey1x4::begin() {
Adafruit_NeoKey_1x4 *t;
for (int n = 0; n < _rows; n++) {
for (int m = 0; m < _cols; m++) {
t = (_neokeys + n * _cols) + m;
if (!t->begin(t->_addr))
return false;
}
}
return true;
}
/**************************************************************************/
/*!
@brief register a callback for a key addressed by key index.
@param x the column index of the key. column 0 is on the lefthand side of
the matix.
@param y the row index of the key. row 0 is at the top of the matrix and
the numbers increase downwards.
@param cb the function to be called when an event from the specified key is
detected.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::registerCallback(
uint8_t x, uint8_t y, NeoKey1x4Callback (*cb)(keyEvent)) {
Adafruit_NeoKey_1x4 *t =
(_neokeys + y / NEOKEY_1X4_ROWS * _cols) + x / NEOKEY_1X4_COLS;
int xkey = NEOKEY_1X4_X(x);
int ykey = NEOKEY_1X4_Y(y % NEOKEY_1X4_ROWS * NEOKEY_1X4_COLS);
t->registerCallback(NEOKEY_1X4_XY(xkey, ykey), cb);
}
/**************************************************************************/
/*!
@brief register a callback for a key addressed by key number.
@param num the keynumber to set the color of. Key 0 is in the top left
corner of the trellis matrix, key 1 is directly to the right of it,
and the last key number is in the bottom righthand corner.
@param cb the function to be called when an event from the specified key is
detected.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::registerCallback(
uint16_t num, NeoKey1x4Callback (*cb)(keyEvent)) {
uint8_t x = num % (NEOKEY_1X4_COLS * _cols);
uint8_t y = num / (NEOKEY_1X4_COLS * _cols);
registerCallback(x, y, cb);
}
/**************************************************************************/
/*!
@brief Unregister a callback for a key addressed by key index.
@param x the column index of the key. column 0 is on the lefthand side of
the matix.
@param y the row index of the key. row 0 is at the top of the matrix and
the numbers increase downwards.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::unregisterCallback(uint8_t x, uint8_t y) {
Adafruit_NeoKey_1x4 *t =
(_neokeys + y / NEOKEY_1X4_ROWS * _cols) + x / NEOKEY_1X4_COLS;
int xkey = NEOKEY_1X4_X(x);
int ykey = NEOKEY_1X4_Y(y % NEOKEY_1X4_ROWS * NEOKEY_1X4_COLS);
t->unregisterCallback(NEOKEY_1X4_XY(xkey, ykey));
}
/**************************************************************************/
/*!
@brief Unregister a callback for a key addressed by key number.
@param num the keynumber to set the color of. Key 0 is in the top left
corner of the trellis matrix, key 1 is directly to the right of it,
and the last key number is in the bottom righthand corner.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::unregisterCallback(uint16_t num) {
uint8_t x = num % (NEOKEY_1X4_COLS * _cols);
uint8_t y = num / (NEOKEY_1X4_COLS * _cols);
unregisterCallback(x, y);
}
/**************************************************************************/
/*!
@brief set the color of a neopixel at a key index.
@param x the column index of the key. column 0 is on the lefthand side of
the matix.
@param y the row index of the key. row 0 is at the top of the matrix and
the numbers increase downwards.
@param color the color to set the pixel to. This is a 24 bit RGB value.
for example, full brightness red would be 0xFF0000, and full
brightness blue would be 0x0000FF.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::setPixelColor(uint8_t x, uint8_t y,
uint32_t color) {
Adafruit_NeoKey_1x4 *t =
(_neokeys + y / NEOKEY_1X4_ROWS * _cols) + x / NEOKEY_1X4_COLS;
int xkey = NEOKEY_1X4_X(x);
int ykey = NEOKEY_1X4_Y(y % NEOKEY_1X4_ROWS * NEOKEY_1X4_COLS);
t->pixels.setPixelColor(NEOKEY_1X4_XY(xkey, ykey), color);
}
/**************************************************************************/
/*!
@brief set the color of a neopixel at a key number.
@param num the keynumber to set the color of. Key 0 is in the top left
corner of the trellis matrix, key 1 is directly to the right of it,
and the last key number is in the bottom righthand corner.
@param color the color to set the pixel to. This is a 24 bit RGB value.
for example, full brightness red would be 0xFF0000, and full
brightness blue would be 0x0000FF.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::setPixelColor(uint16_t num, uint32_t color) {
uint8_t x = num % (NEOKEY_1X4_COLS * _cols);
uint8_t y = num / (NEOKEY_1X4_COLS * _cols);
setPixelColor(x, y, color);
}
/**************************************************************************/
/*!
@brief call show for all connected neotrellis boards to show all neopixels
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::show() {
Adafruit_NeoKey_1x4 *t;
for (int n = 0; n < _rows; n++) {
for (int m = 0; m < _cols; m++) {
t = (_neokeys + n * _cols) + m;
t->pixels.show();
}
}
}
/**************************************************************************/
/*!
@brief read all events currently stored in the seesaw fifo and call any
callbacks.
*/
/**************************************************************************/
void Adafruit_MultiNeoKey1x4::read() {
Adafruit_NeoKey_1x4 *nk;
for (int n = 0; n < _rows; n++) {
for (int m = 0; m < _cols; m++) {
// get the individual breakout
nk = (_neokeys + n * _cols) + m;
// query what buttons are pressed
nk->digitalReadBulk(
NEOKEY_1X4_BUTTONMASK); // not sure why we have to do it 2ce
uint32_t buttons = nk->digitalReadBulk(NEOKEY_1X4_BUTTONMASK);
// Serial.print("Neokey number "); Serial.print(n * _cols + m);
// Serial.print(" buttons: 0x"); Serial.println(buttons, HEX);
buttons ^= NEOKEY_1X4_BUTTONMASK;
buttons &= NEOKEY_1X4_BUTTONMASK;
buttons >>= NEOKEY_1X4_BUTTONA;
// compared to last time
uint8_t just_pressed = (buttons ^ nk->last_buttons) & buttons;
uint8_t just_released = (buttons ^ nk->last_buttons) & ~buttons;
// stash for next run
nk->last_buttons = buttons;
if (just_pressed | just_released) {
// Serial.print("pressed 0x"); Serial.println(just_pressed, HEX);
// Serial.print("released 0x"); Serial.println(just_released, HEX);
// for each key, process the event
for (int b = 0; b < 4; b++) {
int x = b; // column is the button
int y = 0; // a 1x4 neokey only has one row
// extend into whole grid
x = x + m * NEOKEY_1X4_COLS;
y = y + n * NEOKEY_1X4_ROWS;
int event_key = y * NEOKEY_1X4_COLS * _cols + x;
if (just_pressed & (1 << b)) { // if button b is pressed
if (nk->_callbacks[b] != NULL) {
keyEvent evt = {SEESAW_KEYPAD_EDGE_RISING, (uint16_t)event_key};
nk->_callbacks[b](evt);
}
}
if (just_released & (1 << b)) { // if button b is pressed
if (nk->_callbacks[b] != NULL) {
keyEvent evt = {SEESAW_KEYPAD_EDGE_FALLING, (uint16_t)event_key};
nk->_callbacks[b](evt);
}
}
}
}
}
}
}