Tasmota/tasmota/support_rotary.ino

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/*
support_rotary.ino - rotary switch support for Tasmota
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Copyright (C) 2021 Theo Arends
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This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifdef ROTARY_V1
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/*********************************************************************************************\
* Rotary support
*
* Supports full range in 10 steps of the Rotary Encoder:
* - Light Dimmer
* - Light Color for RGB lights when Button1 pressed
* - Light Color Temperature for CW lights when Button1 pressed
*
* _______ _______
* GPIO_ROT1A ______| |_______| |______ GPIO_ROT1A
* negative <-- _______ _______ __ --> positive
* GPIO_ROT1B __| |_______| |_______| GPIO_ROT1B
*
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\*********************************************************************************************/
#ifndef ROTARY_MAX_STEPS
#define ROTARY_MAX_STEPS 10 // Rotary step boundary
#endif
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#ifndef ROTARY_START_DIM
#define ROTARY_START_DIM 1 // Minimal dimmer value after power on with SetOption113 1
#endif
#ifndef ROTARY_TIMEOUT
#define ROTARY_TIMEOUT 2 // 2 * RotaryHandler() call which is usually 2 * 0.05 seconds
#endif
#ifndef ROTARY_DEBOUNCE
#define ROTARY_DEBOUNCE 10 // Debounce time in milliseconds
#endif
const uint8_t rotary_offset = 128;
const int8_t rotary_state_pos[16] = { 0, 1, -1, 2, -1, 0, -2, 1, 1, -2, 0, -1, 2, -1, 1, 0 };
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struct ROTARY {
uint8_t no_pullup_mask_a = 0; // Rotary A pull-up bitmask flags
uint8_t no_pullup_mask_b = 0; // Rotary B pull-up bitmask flags
uint8_t dimmer_increment;
uint8_t ct_increment;
uint8_t color_increment;
uint8_t model;
bool present;
} Rotary;
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struct tEncoder {
volatile uint32_t debounce = 0;
volatile uint8_t state = 0;
volatile uint8_t position;
volatile int8_t direction = 0; // Control consistent direction
volatile int8_t pina;
volatile int8_t pinb;
uint8_t timeout = 0; // Disallow direction change within 0.5 second
int8_t abs_position[2] = { 0 };
bool changed = false;
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};
tEncoder Encoder[MAX_ROTARIES];
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/********************************************************************************************/
void RotaryAPullupFlag(uint32 switch_bit) {
bitSet(Rotary.no_pullup_mask_a, switch_bit);
}
void RotaryBPullupFlag(uint32 switch_bit) {
bitSet(Rotary.no_pullup_mask_b, switch_bit);
}
bool RotaryButtonPressed(uint32_t button_index) {
if (!Rotary.present) { return false; }
for (uint32_t index = 0; index < MAX_ROTARIES; index++) {
if (-1 == Encoder[index].pinb) { continue; }
if (index != button_index) { continue; }
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bool powered_on = (TasmotaGlobal.power);
#ifdef USE_LIGHT
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if (!Settings->flag4.rotary_uses_rules) { // SetOption98 - Use rules instead of light control
powered_on = LightPower();
}
#endif // USE_LIGHT
if (Encoder[index].changed && powered_on) {
Encoder[index].changed = false; // Color (temp) changed, no need to turn of the light
return true;
}
return false;
}
return false;
}
void IRAM_ATTR RotaryIsrArgMiDesk(void *arg) {
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tEncoder* encoder = static_cast<tEncoder*>(arg);
// https://github.com/PaulStoffregen/Encoder/blob/master/Encoder.h
uint32_t state = encoder->state & 3;
if (digitalRead(encoder->pina)) { state |= 4; }
if (digitalRead(encoder->pinb)) { state |= 8; }
encoder->position += rotary_state_pos[state];
encoder->state = (state >> 2);
}
void IRAM_ATTR RotaryIsrArg(void *arg) {
tEncoder* encoder = static_cast<tEncoder*>(arg);
// Theo Arends
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uint32_t time = millis();
if ((encoder->debounce < time) || (encoder->debounce > time + ROTARY_DEBOUNCE)) {
int direction = (digitalRead(encoder->pinb)) ? -1 : 1;
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if ((0 == encoder->direction) || (direction == encoder->direction)) {
encoder->position += direction;
encoder->direction = direction;
}
encoder->debounce = time + ROTARY_DEBOUNCE; // Experimental debounce
}
}
void RotaryInitMaxSteps(void) {
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if (0 == Settings->param[P_ROTARY_MAX_STEP]) {
Settings->param[P_ROTARY_MAX_STEP] = ROTARY_MAX_STEPS; // SetOption43
}
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uint8_t max_steps = Settings->param[P_ROTARY_MAX_STEP];
if (!Rotary.model) { max_steps *= 3; }
Rotary.dimmer_increment = 100 / max_steps; // Dimmer 1..100 = 100
Rotary.ct_increment = 350 / max_steps; // Ct 153..500 = 347
Rotary.color_increment = 360 / max_steps; // Hue 0..359 = 360
}
void RotaryInit(void) {
Rotary.present = false;
Rotary.model = 1;
#ifdef ESP8266
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if (MI_DESK_LAMP == TasmotaGlobal.module_type) {
Rotary.model = 0;
}
#endif // ESP8266
RotaryInitMaxSteps();
for (uint32_t index = 0; index < MAX_ROTARIES; index++) {
Encoder[index].pinb = -1;
if (PinUsed(GPIO_ROT1A, index) && PinUsed(GPIO_ROT1B, index)) {
Encoder[index].position = rotary_offset;
Encoder[index].pina = Pin(GPIO_ROT1A, index);
Encoder[index].pinb = Pin(GPIO_ROT1B, index);
pinMode(Encoder[index].pina, bitRead(Rotary.no_pullup_mask_a, index) ? INPUT : INPUT_PULLUP);
pinMode(Encoder[index].pinb, bitRead(Rotary.no_pullup_mask_b, index) ? INPUT : INPUT_PULLUP);
if (0 == Rotary.model) {
attachInterruptArg(Encoder[index].pina, RotaryIsrArgMiDesk, &Encoder[index], CHANGE);
attachInterruptArg(Encoder[index].pinb, RotaryIsrArgMiDesk, &Encoder[index], CHANGE);
} else {
attachInterruptArg(Encoder[index].pina, RotaryIsrArg, &Encoder[index], FALLING);
}
}
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Rotary.present |= (Encoder[index].pinb >= 0);
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}
}
/*********************************************************************************************\
* Rotary handler
\*********************************************************************************************/
void RotaryHandler(void) {
if (!Rotary.present) { return; }
for (uint32_t index = 0; index < MAX_ROTARIES; index++) {
if (-1 == Encoder[index].pinb) { continue; }
if (Encoder[index].timeout) {
Encoder[index].timeout--;
if (!Encoder[index].timeout) {
#ifdef USE_LIGHT
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if (!Settings->flag4.rotary_uses_rules) { // SetOption98 - Use rules instead of light control
ResponseLightState(0);
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MqttPublishPrefixTopicRulesProcess_P(RESULT_OR_STAT, PSTR(D_CMND_STATE));
}
#endif // USE_LIGHT
Encoder[index].direction = 0;
}
}
if (rotary_offset == Encoder[index].position) { continue; }
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Encoder[index].timeout = ROTARY_TIMEOUT; // Prevent fast direction changes within 0.5 second
noInterrupts();
int rotary_position = Encoder[index].position - rotary_offset;
Encoder[index].position = rotary_offset;
interrupts();
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if (Settings->save_data && (TasmotaGlobal.save_data_counter < 2)) {
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TasmotaGlobal.save_data_counter = 3; // Postpone flash writes while rotary is turned
}
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bool button_pressed = (Button.hold_timer[index]); // Button is pressed: set color temperature
if (button_pressed) { Encoder[index].changed = true; }
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// AddLog(LOG_LEVEL_DEBUG, PSTR("ROT: Button1 %d, Position %d"), button_pressed, rotary_position);
#ifdef USE_LIGHT
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if (!Settings->flag4.rotary_uses_rules) { // SetOption98 - Use rules instead of light control
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bool second_rotary = (Encoder[1].pinb >= 0);
if (0 == index) { // Rotary1
if (button_pressed) {
if (second_rotary) { // Color RGB
LightColorOffset(rotary_position * Rotary.color_increment);
} else { // Color Temperature or Color RGB
if (!LightColorTempOffset(rotary_position * Rotary.ct_increment)) {
LightColorOffset(rotary_position * Rotary.color_increment);
}
}
} else { // Dimmer RGBCW or RGB only if second rotary
uint32_t dimmer_index = second_rotary ? 1 : 0;
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if (!Settings->flag4.rotary_poweron_dimlow || TasmotaGlobal.power) { // SetOption113 - On rotary dial after power off set dimmer low
LightDimmerOffset(dimmer_index, rotary_position * Rotary.dimmer_increment);
} else {
if (rotary_position > 0) { // Only power on if rotary increase
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LightDimmerOffset(dimmer_index, -LightGetDimmer(dimmer_index) + ROTARY_START_DIM);
}
}
}
} else { // Rotary2
if (button_pressed) { // Color Temperature
LightColorTempOffset(rotary_position * Rotary.ct_increment);
} else { // Dimmer CW
LightDimmerOffset(2, rotary_position * Rotary.dimmer_increment);
}
}
} else {
#endif // USE_LIGHT
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Encoder[index].abs_position[button_pressed] += rotary_position;
if (Encoder[index].abs_position[button_pressed] < 0) {
Encoder[index].abs_position[button_pressed] = 0;
}
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if (Encoder[index].abs_position[button_pressed] > Settings->param[P_ROTARY_MAX_STEP]) { // SetOption43 - Rotary steps
Encoder[index].abs_position[button_pressed] = Settings->param[P_ROTARY_MAX_STEP]; // SetOption43 - Rotary steps
}
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Response_P(PSTR("{\"Rotary%d\":{\"Pos1\":%d,\"Pos2\":%d}}"), index +1, Encoder[index].abs_position[0], Encoder[index].abs_position[1]);
XdrvRulesProcess(0);
#ifdef USE_LIGHT
}
#endif // USE_LIGHT
}
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}
#endif // ROTARY_V1