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Kaleidoscope/src/Kaleidoscope-LEDControl.cpp

283 lines
5.6 KiB

#include "Kaleidoscope-LEDControl.h"
#include "Kaleidoscope-Focus.h"
namespace kaleidoscope {
LEDMode *LEDControl::modes[LED_MAX_MODES];
uint8_t LEDControl::mode;
uint16_t LEDControl::syncDelay = 16;
uint16_t LEDControl::syncTimer;
bool LEDControl::paused = false;
void LEDMode::activate(void) {
::LEDControl.activate(this);
}
kaleidoscope::EventHandlerResult LEDMode::onSetup() {
::LEDControl.mode_add(this);
setup();
return EventHandlerResult::OK;
}
#if KALEIDOSCOPE_ENABLE_V1_PLUGIN_API
void LEDMode::begin() {
onSetup();
}
#endif
LEDControl::LEDControl(void) {
mode = 0;
memset(modes, 0, LED_MAX_MODES * sizeof(modes[0]));
}
void LEDControl::next_mode(void) {
mode++;
if (mode >= LED_MAX_MODES || !modes[mode]) {
return set_mode(0);
}
return set_mode(mode);
}
void LEDControl::prev_mode(void) {
if (mode == 0) {
// wrap around
mode = LED_MAX_MODES - 1;
// then count down until reaching a valid mode
while (mode > 0 && !modes[mode]) mode--;
} else {
mode--;
}
return set_mode(mode);
}
void
LEDControl::set_mode(uint8_t mode_) {
if (mode_ >= LED_MAX_MODES)
return;
mode = mode_;
refreshAll();
}
uint8_t LEDControl::get_mode_index(void) {
return mode;
}
LEDMode *LEDControl::get_mode(void) {
return modes[mode];
}
void LEDControl::activate(LEDMode *mode) {
for (uint8_t i = 0; i < LED_MAX_MODES; i++) {
if (modes[i] == mode)
return set_mode(i);
}
}
int8_t LEDControl::mode_add(LEDMode *mode) {
for (int i = 0; i < LED_MAX_MODES; i++) {
if (modes[i])
continue;
modes[i] = mode;
return i;
}
return -1;
}
void LEDControl::set_all_leds_to(uint8_t r, uint8_t g, uint8_t b) {
cRGB color;
color.r = r;
color.g = g;
color.b = b;
set_all_leds_to(color);
}
void LEDControl::set_all_leds_to(cRGB color) {
for (uint8_t i = 0; i < LED_COUNT; i++) {
setCrgbAt(i, color);
}
}
void LEDControl::setCrgbAt(uint8_t i, cRGB crgb) {
KeyboardHardware.setCrgbAt(i, crgb);
}
void LEDControl::setCrgbAt(byte row, byte col, cRGB color) {
KeyboardHardware.setCrgbAt(row, col, color);
}
cRGB LEDControl::getCrgbAt(uint8_t i) {
return KeyboardHardware.getCrgbAt(i);
}
void LEDControl::syncLeds(void) {
KeyboardHardware.syncLeds();
}
kaleidoscope::EventHandlerResult LEDControl::onSetup() {
set_all_leds_to({0, 0, 0});
for (uint8_t i = 0; i < LED_MAX_MODES; i++) {
if (modes[i])
(modes[i]->setup)();
}
syncTimer = millis() + syncDelay;
return EventHandlerResult::OK;
}
kaleidoscope::EventHandlerResult LEDControl::onKeyswitchEvent(Key &mappedKey, byte row, byte col, uint8_t keyState) {
if (mappedKey.flags != (SYNTHETIC | IS_INTERNAL | LED_TOGGLE))
return kaleidoscope::EventHandlerResult::OK;
if (keyToggledOn(keyState)) {
if (mappedKey == Key_LEDEffectNext) {
next_mode();
} else if (mappedKey == Key_LEDEffectPrevious) {
prev_mode();
}
}
return kaleidoscope::EventHandlerResult::EVENT_CONSUMED;
}
kaleidoscope::EventHandlerResult LEDControl::beforeReportingState(void) {
if (paused)
return kaleidoscope::EventHandlerResult::OK;
uint16_t elapsed = Kaleidoscope.millisAtCycleStart() - syncTimer;
if (elapsed > syncDelay) {
syncLeds();
syncTimer += syncDelay;
}
update();
return kaleidoscope::EventHandlerResult::OK;
}
bool LEDControl::focusHook(const char *command) {
enum {
SETALL,
MODE,
AT,
THEME,
} subCommand;
if (strncmp_P(command, PSTR("led."), 4) != 0)
return false;
if (strcmp_P(command + 4, PSTR("at")) == 0)
subCommand = AT;
else if (strcmp_P(command + 4, PSTR("setAll")) == 0)
subCommand = SETALL;
else if (strcmp_P(command + 4, PSTR("mode")) == 0)
subCommand = MODE;
else if (strcmp_P(command + 4, PSTR("theme")) == 0)
subCommand = THEME;
else
return false;
switch (subCommand) {
case AT: {
uint8_t idx = Serial.parseInt();
if (Serial.peek() == '\n') {
cRGB c = getCrgbAt(idx);
::Focus.printColor(c.r, c.g, c.b);
Serial.println();
} else {
cRGB c;
::Focus.readColor(c);
setCrgbAt(idx, c);
}
break;
}
case SETALL: {
cRGB c;
::Focus.readColor(c);
set_all_leds_to(c);
break;
}
case MODE: {
char peek = Serial.peek();
if (peek == '\n') {
Serial.println(get_mode_index());
} else if (peek == 'n') {
next_mode();
Serial.read();
} else if (peek == 'p') {
prev_mode();
Serial.read();
} else {
uint8_t mode = Serial.parseInt();
set_mode(mode);
}
break;
}
case THEME: {
if (Serial.peek() == '\n') {
for (uint8_t idx = 0; idx < LED_COUNT; idx++) {
cRGB c = getCrgbAt(idx);
::Focus.printColor(c.r, c.g, c.b);
::Focus.printSpace();
}
Serial.println();
break;
}
uint8_t idx = 0;
while (idx < LED_COUNT && Serial.peek() != '\n') {
cRGB color;
::Focus.readColor(color);
setCrgbAt(idx, color);
idx++;
}
break;
}
}
return true;
}
// Legacy V1 API
#if KALEIDOSCOPE_ENABLE_V1_PLUGIN_API
void LEDControl::begin() {
::LEDControl.onSetup();
Kaleidoscope.useEventHandlerHook(legacyEventHandler);
Kaleidoscope.useLoopHook(legacyLoopHook);
}
Key LEDControl::legacyEventHandler(Key mapped_key, byte row, byte col, uint8_t key_state) {
EventHandlerResult r = ::LEDControl.onKeyswitchEvent(mapped_key, row, col, key_state);
if (r == EventHandlerResult::OK)
return mapped_key;
return Key_NoKey;
}
void LEDControl::legacyLoopHook(bool is_post_clear) {
if (is_post_clear)
return;
::LEDControl.beforeReportingState();
}
#endif
}
kaleidoscope::LEDControl LEDControl;