/*
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BUTTON MODULE
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Copyright (C) 2016-2017 by Xose Pérez <xose dot perez at gmail dot com>
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*/
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// -----------------------------------------------------------------------------
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// BUTTON
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// -----------------------------------------------------------------------------
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#ifdef SONOFF_DUAL
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#ifdef MQTT_BUTTON_TOPIC
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void buttonMQTT(unsigned char id) {
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String mqttGetter = getSetting("mqttGetter", MQTT_USE_GETTER);
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char buffer[strlen(MQTT_BUTTON_TOPIC) + mqttGetter.length() + 3];
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sprintf(buffer, "%s/%d%s", MQTT_BUTTON_TOPIC, id, mqttGetter.c_str());
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mqttSend(buffer, 1);
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mqttSend(buffer, 0);
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}
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#endif
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void buttonSetup() {}
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void buttonLoop() {
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if (Serial.available() >= 4) {
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unsigned char value;
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if (Serial.read() == 0xA0) {
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if (Serial.read() == 0x04) {
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value = Serial.read();
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if (Serial.read() == 0xA1) {
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// RELAYs and BUTTONs are synchonized in the SIL F330
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// The on-board BUTTON2 should toggle RELAY0 value
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// Since we are not passing back RELAY2 value
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// (in the relayStatus method) it will only be present
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// here if it has actually been pressed
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if ((value & 4) == 4) {
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value = value ^ 1;
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#ifdef MQTT_BUTTON_TOPIC
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buttonMQTT(0);
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#endif
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}
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// Otherwise check if any of the other two BUTTONs
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// (in the header) has been pressent, but we should
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// ensure that we only toggle one of them to avoid
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// the synchronization going mad
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// This loop is generic for any PSB-04 module
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for (unsigned int i=0; i<relayCount(); i++) {
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bool status = (value & (1 << i)) > 0;
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// relayStatus returns true if the status has changed
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if (relayStatus(i, status)) break;
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}
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}
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}
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}
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}
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}
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#else
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#ifdef BUTTON1_PIN
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#include <DebounceEvent.h>
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#include <vector>
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typedef struct {
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DebounceEvent * button;
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unsigned int relayID;
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} button_t;
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std::vector<button_t> _buttons;
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#ifdef MQTT_BUTTON_TOPIC
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void buttonMQTT(unsigned char id) {
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if (id >= _buttons.size()) return;
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String mqttGetter = getSetting("mqttGetter", MQTT_USE_GETTER);
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char buffer[strlen(MQTT_BUTTON_TOPIC) + mqttGetter.length() + 3];
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sprintf(buffer, "%s/%d%s", MQTT_BUTTON_TOPIC, id, mqttGetter.c_str());
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mqttSend(buffer, _buttons[id].button->pressed() ? "1" : "0");
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}
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#endif
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void buttonSetup() {
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#ifdef BUTTON1_PIN
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_buttons.push_back({new DebounceEvent(BUTTON1_PIN), BUTTON1_RELAY});
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#endif
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#ifdef BUTTON2_PIN
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_buttons.push_back({new DebounceEvent(BUTTON2_PIN), BUTTON2_RELAY});
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#endif
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#ifdef BUTTON3_PIN
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_buttons.push_back({new DebounceEvent(BUTTON3_PIN), BUTTON3_RELAY});
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#endif
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#ifdef BUTTON4_PIN
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_buttons.push_back({new DebounceEvent(BUTTON4_PIN), BUTTON4_RELAY});
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#endif
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#ifdef LED_PULSE
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pinMode(LED_PULSE, OUTPUT);
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byte relayPulseMode = getSetting("relayPulseMode", String(RELAY_PULSE_MODE)).toInt();
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digitalWrite(LED_PULSE, relayPulseMode != RELAY_PULSE_NONE);
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#endif
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DEBUG_MSG("[BUTTON] Number of buttons: %d\n", _buttons.size());
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}
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void buttonLoop() {
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for (unsigned int i=0; i < _buttons.size(); i++) {
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if (_buttons[i].button->loop()) {
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uint8_t event = _buttons[i].button->getEvent();
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DEBUG_MSG("[BUTTON] Pressed #%d, event: %d\n", i, event);
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#ifdef MQTT_BUTTON_TOPIC
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buttonMQTT(i);
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#endif
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if (i == 0) {
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if (event == EVENT_DOUBLE_CLICK) createAP();
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if (event == EVENT_LONG_CLICK) ESP.reset();
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}
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#ifdef ITEAD_1CH_INCHING
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if (i == 1) {
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relayPulseToggle();
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continue;
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}
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#endif
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if (event == EVENT_SINGLE_CLICK) {
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if (_buttons[i].relayID > 0) {
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relayToggle(_buttons[i].relayID - 1);
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}
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}
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}
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}
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}
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#else
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void buttonSetup() {}
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void buttonLoop() {}
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#endif
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#endif
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