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Usermod settings v2

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- added POST field parsing
- simpler handling in readFromConfig()
This commit is contained in:
Blaz Kristan
2021-06-27 15:32:33 +02:00
parent 0ae0f40628
commit 9e8aadb750
12 changed files with 400 additions and 433 deletions
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73
usermods/Animated_Staircase/Animated_Staircase.h
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@@ -426,6 +426,8 @@ class Animated_Staircase : public Usermod {
/*
* Reads the configuration to internal flash memory before setup() is called.
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject& root) {
bool oldUseUSSensorTop = useUSSensorTop;
@@ -435,49 +437,41 @@ class Animated_Staircase : public Usermod {
int8_t oldBottomAPin = bottomPIRorTriggerPin;
int8_t oldBottomBPin = bottomEchoPin;
bool configComplete = true;
JsonObject staircase = root[FPSTR(_name)];
if (!staircase.isNull()) {
if (staircase[FPSTR(_enabled)].is<bool>()) {
enabled = staircase[FPSTR(_enabled)].as<bool>();
} else {
String str = staircase[FPSTR(_enabled)]; // checkbox -> off or on
enabled = (bool)(str!="off"); // off is guaranteed to be present
}
segment_delay_ms = min(10000,max(10,staircase[FPSTR(_segmentDelay)].as<int>())); // max delay 10s
on_time_ms = min(900,max(10,staircase[FPSTR(_onTime)].as<int>())) * 1000; // min 10s, max 15min
if (staircase[FPSTR(_useTopUltrasoundSensor)].is<bool>()) {
useUSSensorTop = staircase[FPSTR(_useTopUltrasoundSensor)].as<bool>();
} else {
String str = staircase[FPSTR(_useTopUltrasoundSensor)]; // checkbox -> off or on
useUSSensorTop = (bool)(str!="off"); // off is guaranteed to be present
}
topPIRorTriggerPin = min(39,max(-1,staircase[FPSTR(_topPIRorTrigger_pin)].as<int>()));
topEchoPin = min(39,max(-1,staircase[FPSTR(_topEcho_pin)].as<int>()));
if (staircase[FPSTR(_useBottomUltrasoundSensor)].is<bool>()) {
useUSSensorBottom = staircase[FPSTR(_useBottomUltrasoundSensor)].as<bool>();
} else {
String str = staircase[FPSTR(_useBottomUltrasoundSensor)]; // checkbox -> off or on
useUSSensorBottom = (bool)(str!="off"); // off is guaranteed to be present
}
bottomPIRorTriggerPin = min(39,max(-1,staircase[FPSTR(_bottomPIRorTrigger_pin)].as<int>()));
bottomEchoPin = min(39,max(-1,staircase[FPSTR(_bottomEcho_pin)].as<int>()));
topMaxDist = min(150,max(30,staircase[FPSTR(_topEchoCm)].as<int>())); // max distnace ~1.5m (a lag of 9ms may be expected)
bottomMaxDist = min(150,max(30,staircase[FPSTR(_bottomEchoCm)].as<int>())); // max distance ~1.5m (a lag of 9ms may be expected)
} else {
DEBUG_PRINTLN(F("No config found. (Using defaults.)"));
configComplete = false;
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
enabled = top[FPSTR(_enabled)] | enabled;
segment_delay_ms = top[FPSTR(_segmentDelay)] | segment_delay_ms;
segment_delay_ms = (unsigned long) min((unsigned long)10000,max((unsigned long)10,(unsigned long)segment_delay_ms)); // max delay 10s
on_time_ms = top[FPSTR(_onTime)] | on_time_ms/1000;
on_time_ms = min(900,max(10,(int)on_time_ms)) * 1000; // min 10s, max 15min
useUSSensorTop = top[FPSTR(_useTopUltrasoundSensor)] | useUSSensorTop;
topPIRorTriggerPin = top[FPSTR(_topPIRorTrigger_pin)] | topPIRorTriggerPin;
topEchoPin = top[FPSTR(_topEcho_pin)] | topEchoPin;
useUSSensorBottom = top[FPSTR(_useBottomUltrasoundSensor)] | useUSSensorBottom;
bottomPIRorTriggerPin = top[FPSTR(_bottomPIRorTrigger_pin)] | bottomPIRorTriggerPin;
bottomEchoPin = top[FPSTR(_bottomEcho_pin)] | bottomEchoPin;
topMaxDist = top[FPSTR(_topEchoCm)] | topMaxDist;
topMaxDist = min(150,max(30,(int)topMaxDist)); // max distnace ~1.5m (a lag of 9ms may be expected)
bottomMaxDist = top[FPSTR(_bottomEchoCm)] | bottomMaxDist;
bottomMaxDist = min(150,max(30,(int)bottomMaxDist)); // max distance ~1.5m (a lag of 9ms may be expected)
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
DEBUG_PRINTLN(F("Staircase config loaded."));
DEBUG_PRINTLN(F(" config loaded."));
} else {
// changing paramters from settings page
DEBUG_PRINTLN(F("Staircase config (re)loaded."));
DEBUG_PRINTLN(F(" config (re)loaded."));
bool changed = false;
if ((oldUseUSSensorTop != useUSSensorTop) ||
(oldUseUSSensorBottom != useUSSensorBottom) ||
@@ -493,7 +487,8 @@ class Animated_Staircase : public Usermod {
}
if (changed) setup();
}
return configComplete;
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}
/*

21
usermods/EXAMPLE_v2/usermod_v2_example.h
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@@ -23,8 +23,12 @@
//class name. Use something descriptive and leave the ": public Usermod" part :)
class MyExampleUsermod : public Usermod {
private:
// sample usermod default value for variable (you can also use constructor)
int userVar0 = 42;
//Private class members. You can declare variables and functions only accessible to your usermod here
unsigned long lastTime = 0;
public:
//Functions called by WLED
@@ -140,21 +144,14 @@ class MyExampleUsermod : public Usermod {
*/
bool readFromConfig(JsonObject& root)
{
userVar0 = 42; //set your variables to their boot default value (this can also be done when declaring the variable)
//set defaults for variables when declaring the variable (class definition or constructor)
JsonObject top = root["exampleUsermod"];
if (!top.isNull()) {
bool configComplete = true;
if (!top.isNull()) return false;
//check if value is there
if (top.containsKey("great")) {
//convert value to the correct type
userVar0 = top["great"].as<int>();
} else configComplete = false;
userVar0 = top["great"] | userVar0;
if (configComplete) return true;
}
return false;
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}

1
usermods/Fix_unreachable_netservices_v2/usermod_Fix_unreachable_netservices.h
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@@ -155,6 +155,7 @@ Delay <input type=\"number\" min=\"5\" max=\"300\" value=\"";
if (top.isNull()) return false;
m_pingDelayMs = top["PingDelayMs"] | m_pingDelayMs;
m_pingDelayMs = max(5000UL, min(18000000UL, m_pingDelayMs));
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}

67
usermods/PIR_sensor_switch/usermod_PIR_sensor_switch.h
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@@ -222,9 +222,8 @@ public:
void loop()
{
// only check sensors 10x/s
unsigned long now = millis();
if (now - lastLoop < 100) return;
lastLoop = now;
if (millis() - lastLoop < 100 || strip.isUpdating()) return;
lastLoop = millis();
if (!updatePIRsensorState()) {
handleOffTimer();
@@ -320,6 +319,8 @@ public:
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root)
{
@@ -327,57 +328,31 @@ public:
int8_t oldPin = PIRsensorPin;
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) return false;
if (top["pin"] != nullptr) {
PIRsensorPin = min(39,max(-1,top["pin"].as<int>())); // check bounds
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
if (top[FPSTR(_enabled)] != nullptr) {
if (top[FPSTR(_enabled)].is<bool>()) {
enabled = top[FPSTR(_enabled)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[FPSTR(_enabled)]; // checkbox -> off or on
enabled = (bool)(str!="off"); // off is guaranteed to be present
}
}
PIRsensorPin = top["pin"] | PIRsensorPin;
if (top[FPSTR(_switchOffDelay)] != nullptr) {
m_switchOffDelay = (top[FPSTR(_switchOffDelay)].as<int>() * 1000);
}
enabled = top[FPSTR(_enabled)] | enabled;
if (top[FPSTR(_onPreset)] != nullptr) {
m_onPreset = max(0,min(250,top[FPSTR(_onPreset)].as<int>()));
}
m_switchOffDelay = (top[FPSTR(_switchOffDelay)] | m_switchOffDelay/1000) * 1000;
if (top[FPSTR(_offPreset)] != nullptr) {
m_offPreset = max(0,min(250,top[FPSTR(_offPreset)].as<int>()));
}
m_onPreset = top[FPSTR(_onPreset)] | m_onPreset;
m_onPreset = max(0,min(250,(int)m_onPreset));
if (top[FPSTR(_nightTime)] != nullptr) {
if (top[FPSTR(_nightTime)].is<bool>()) {
m_nightTimeOnly = top[FPSTR(_nightTime)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[FPSTR(_nightTime)]; // checkbox -> off or on
m_nightTimeOnly = (bool)(str!="off"); // off is guaranteed to be present
}
}
m_offPreset = top[FPSTR(_offPreset)] | m_offPreset;
m_offPreset = max(0,min(250,(int)m_offPreset));
if (top[FPSTR(_mqttOnly)] != nullptr) {
if (top[FPSTR(_mqttOnly)].is<bool>()) {
m_mqttOnly = top[FPSTR(_mqttOnly)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[FPSTR(_mqttOnly)]; // checkbox -> off or on
m_mqttOnly = (bool)(str!="off"); // off is guaranteed to be present
}
}
m_nightTimeOnly = top[FPSTR(_nightTime)] | m_nightTimeOnly;
m_mqttOnly = top[FPSTR(_mqttOnly)] | m_mqttOnly;
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// reading config prior to setup()
DEBUG_PRINTLN(F("PIR config loaded."));
DEBUG_PRINTLN(F(" config loaded."));
} else {
if (oldPin != PIRsensorPin || oldEnabled != enabled) {
// check if pin is OK
@@ -396,10 +371,10 @@ public:
if (enabled) {
sensorPinState = digitalRead(PIRsensorPin);
}
DEBUG_PRINTLN(F("PIR config (re)loaded."));
}
DEBUG_PRINTLN(F(" config (re)loaded."));
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}

41
usermods/SN_Photoresistor/usermod_sn_photoresistor.h
View File

@@ -167,37 +167,28 @@ public:
}
/**
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*/
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*/
bool readFromConfig(JsonObject &root)
{
// we look for JSON object.
JsonObject top = root[FPSTR(_name)];
if (!top.isNull())
{
if (top[FPSTR(_enabled)].is<bool>())
{
disabled = !top[FPSTR(_enabled)].as<bool>();
}
else
{
String str = top[FPSTR(_enabled)]; // checkbox -> off or on
disabled = (bool)(str == "off"); // off is guaranteed to be present
};
readingInterval = min(120, max(10, top[FPSTR(_readInterval)].as<int>())) * 1000; // convert to ms
referenceVoltage = top[FPSTR(_referenceVoltage)].as<float>();
resistorValue = top[FPSTR(_resistorValue)].as<float>();
adcPrecision = top[FPSTR(_adcPrecision)].as<float>();
offset = top[FPSTR(_offset)].as<int>();
DEBUG_PRINTLN(F("Photoresistor config (re)loaded."));
}
else
{
DEBUG_PRINTLN(F("No config found. (Using defaults.)"));
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
disabled = !(top[FPSTR(_enabled)] | !disabled);
readingInterval = (top[FPSTR(_readInterval)] | readingInterval/1000) * 1000; // convert to ms
referenceVoltage = top[FPSTR(_referenceVoltage)] | referenceVoltage;
resistorValue = top[FPSTR(_resistorValue)] | resistorValue;
adcPrecision = top[FPSTR(_adcPrecision)] | adcPrecision;
offset = top[FPSTR(_offset)] | offset;
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(" config (re)loaded."));
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}
};

112
usermods/Temperature/usermod_temperature.h
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@@ -17,11 +17,6 @@
#define USERMOD_DALLASTEMPERATURE_MEASUREMENT_INTERVAL 60000
#endif
// how many seconds after boot to take first measurement, 20 seconds
#ifndef USERMOD_DALLASTEMPERATURE_FIRST_MEASUREMENT_AT
#define USERMOD_DALLASTEMPERATURE_FIRST_MEASUREMENT_AT 20000
#endif
class UsermodTemperature : public Usermod {
private:
@@ -32,9 +27,12 @@ class UsermodTemperature : public Usermod {
int8_t temperaturePin = TEMPERATURE_PIN;
// measurement unit (true==°C, false==°F)
bool degC = true;
// using parasite power on the sensor
bool parasite = false;
// how often do we read from sensor?
unsigned long readingInterval = USERMOD_DALLASTEMPERATURE_MEASUREMENT_INTERVAL;
// set last reading as "40 sec before boot", so first reading is taken after 20 sec
unsigned long lastMeasurement = UINT32_MAX - (USERMOD_DALLASTEMPERATURE_MEASUREMENT_INTERVAL - USERMOD_DALLASTEMPERATURE_FIRST_MEASUREMENT_AT);
unsigned long lastMeasurement = UINT32_MAX - USERMOD_DALLASTEMPERATURE_MEASUREMENT_INTERVAL;
// last time requestTemperatures was called
// used to determine when we can read the sensors temperature
// we have to wait at least 93.75 ms after requestTemperatures() is called
@@ -42,37 +40,32 @@ class UsermodTemperature : public Usermod {
float temperature = -100; // default to -100, DS18B20 only goes down to -50C
// indicates requestTemperatures has been called but the sensor measurement is not complete
bool waitingForConversion = false;
// flag to indicate we have finished the first readTemperature call
// allows this library to report to the user how long until the first
// measurement
bool readTemperatureComplete = false;
// flag set at startup if DS18B20 sensor not found, avoids trying to keep getting
// temperature if flashed to a board without a sensor attached
bool disabled = false;
bool enabled = true;
// strings to reduce flash memory usage (used more than twice)
static const char _name[];
static const char _enabled[];
static const char _readInterval[];
static const char _parasite[];
//Dallas sensor quick (& dirty) reading. Credit to - Author: Peter Scargill, August 17th, 2013
int16_t readDallas() {
float readDallas() {
byte i;
byte data[2];
int16_t result; // raw data from sensor
oneWire->reset();
oneWire->write(0xCC); // skip ROM
oneWire->write(0xBE); // read (temperature) from EEPROM
int16_t result; // raw data from sensor
if (!oneWire->reset()) return -127.0f; // send reset command and fail fast
oneWire->skip(); // skip ROM
oneWire->write(0xBE); // read (temperature) from EEPROM
for (i=0; i < 2; i++) data[i] = oneWire->read(); // first 2 bytes contain temperature
for (i=2; i < 8; i++) oneWire->read(); // read unused bytes
result = (data[1]<<8) | data[0];
result >>= 4; // 9-bit precision accurate to 1°C (/16)
if (data[1]&0x80) result |= 0xF000; // fix negative value
//if (data[0]&0x08) ++result;
result = (data[1]<<4) | (data[0]>>4); // we only need whole part, we will add fraction when returning
if (data[1]&0x80) result |= 0xFF00; // fix negative value
oneWire->reset();
oneWire->write(0xCC); // skip ROM
oneWire->write(0x44,0); // request new temperature reading (without parasite power)
return result;
oneWire->skip(); // skip ROM
oneWire->write(0x44,parasite); // request new temperature reading (without parasite power)
return (float)result + ((data[0]&0x0008) ? 0.5f : 0.0f);
}
void requestTemperatures() {
@@ -86,7 +79,6 @@ class UsermodTemperature : public Usermod {
temperature = readDallas();
lastMeasurement = millis();
waitingForConversion = false;
readTemperatureComplete = true;
DEBUG_PRINTF("Read temperature %2.1f.\n", temperature);
}
@@ -118,23 +110,23 @@ class UsermodTemperature : public Usermod {
// pin retrieved from cfg.json (readFromConfig()) prior to running setup()
if (!pinManager.allocatePin(temperaturePin,false)) {
temperaturePin = -1; // allocation failed
disabled = true;
enabled = false;
DEBUG_PRINTLN(F("Temperature pin allocation failed."));
} else {
if (!disabled) {
if (enabled) {
// config says we are enabled
oneWire = new OneWire(temperaturePin);
if (!oneWire->reset())
disabled = true; // resetting 1-Wire bus yielded an error
enabled = false; // resetting 1-Wire bus yielded an error
else
while ((disabled=!findSensor()) && retries--) delay(25); // try to find sensor
while ((enabled=findSensor()) && retries--) delay(25); // try to find sensor
}
}
initDone = true;
}
void loop() {
if (disabled || strip.isUpdating()) return;
if (!enabled || strip.isUpdating()) return;
unsigned long now = millis();
@@ -189,7 +181,7 @@ class UsermodTemperature : public Usermod {
*/
void addToJsonInfo(JsonObject& root) {
// dont add temperature to info if we are disabled
if (disabled) return;
if (!enabled) return;
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
@@ -197,14 +189,6 @@ class UsermodTemperature : public Usermod {
JsonArray temp = user.createNestedArray(FPSTR(_name));
//temp.add(F("Loaded."));
if (!readTemperatureComplete) {
// if we haven't read the sensor yet, let the user know
// that we are still waiting for the first measurement
temp.add((USERMOD_DALLASTEMPERATURE_FIRST_MEASUREMENT_AT - millis()) / 1000);
temp.add(F(" sec until read"));
return;
}
if (temperature <= -100) {
temp.add(0);
temp.add(F(" Sensor Error!"));
@@ -239,51 +223,44 @@ class UsermodTemperature : public Usermod {
void addToConfig(JsonObject &root) {
// we add JSON object: {"Temperature": {"pin": 0, "degC": true}}
JsonObject top = root.createNestedObject(FPSTR(_name)); // usermodname
top[FPSTR(_enabled)] = !disabled;
top[FPSTR(_enabled)] = enabled;
top["pin"] = temperaturePin; // usermodparam
top["degC"] = degC; // usermodparam
top[FPSTR(_readInterval)] = readingInterval / 1000;
top[FPSTR(_parasite)] = parasite;
DEBUG_PRINTLN(F("Temperature config saved."));
}
/**
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root) {
// we look for JSON object: {"Temperature": {"pin": 0, "degC": true}}
JsonObject top = root[FPSTR(_name)];
int8_t newTemperaturePin = temperaturePin;
bool configComplete = true;
if (!top.isNull() && top["pin"] != nullptr) {
if (top[FPSTR(_enabled)].is<bool>()) {
disabled = !top[FPSTR(_enabled)].as<bool>();
} else {
String str = top[FPSTR(_enabled)]; // checkbox -> off or on
disabled = (bool)(str=="off"); // off is guaranteed to be present
}
newTemperaturePin = min(39,max(-1,top["pin"].as<int>()));
if (top["degC"].is<bool>()) {
// reading from cfg.json
degC = top["degC"].as<bool>();
} else {
// new configuration from set.cpp
String str = top["degC"]; // checkbox -> off or on
degC = (bool)(str!="off"); // off is guaranteed to be present
}
readingInterval = min(120,max(10,top[FPSTR(_readInterval)].as<int>())) * 1000; // convert to ms
DEBUG_PRINTLN(F("Temperature config (re)loaded."));
} else {
DEBUG_PRINTLN(F("No config found. (Using defaults.)"));
configComplete = false;
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
enabled = top[FPSTR(_enabled)] | enabled;
newTemperaturePin = top["pin"] | newTemperaturePin;
degC = top["degC"] | degC;
readingInterval = top[FPSTR(_readInterval)] | readingInterval/1000;
readingInterval = min(120,max(10,(int)readingInterval)) * 1000; // convert to ms
parasite = top[FPSTR(_parasite)] | parasite;
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
temperaturePin = newTemperaturePin;
DEBUG_PRINTLN(F(" config loaded."));
} else {
// changing parameters from settings page
// changing paramters from settings page
if (newTemperaturePin != temperaturePin) {
// deallocate pin and release memory
delete oneWire;
@@ -292,8 +269,10 @@ class UsermodTemperature : public Usermod {
// initialise
setup();
}
DEBUG_PRINTLN(F(" config (re)loaded."));
}
return configComplete;
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_parasite)].isNull();
}
uint16_t getId()
@@ -305,4 +284,5 @@ class UsermodTemperature : public Usermod {
// strings to reduce flash memory usage (used more than twice)
const char UsermodTemperature::_name[] PROGMEM = "Temperature";
const char UsermodTemperature::_enabled[] PROGMEM = "enabled";
const char UsermodTemperature::_readInterval[] PROGMEM = "read-interval-s";
const char UsermodTemperature::_readInterval[] PROGMEM = "read-interval-s";
const char UsermodTemperature::_parasite[] PROGMEM = "parasite-pwr";

63
usermods/multi_relay/usermod_multi_relay.h
View File

@@ -35,7 +35,7 @@ class MultiRelay : public Usermod {
// switch timer start time
uint32_t _switchTimerStart = 0;
// old brightness
uint8_t _oldBrightness = 0;
bool _oldBrightness = 0;
// usermod enabled
bool enabled = false; // needs to be configured (no default config)
@@ -265,7 +265,7 @@ class MultiRelay : public Usermod {
_relay[i].active = false;
}
}
_oldBrightness = bri;
_oldBrightness = (bool)bri;
initDone = true;
}
@@ -288,8 +288,8 @@ class MultiRelay : public Usermod {
lastUpdate = millis();
//set relay when LEDs turn on
if (_oldBrightness != bri) {
_oldBrightness = bri;
if (_oldBrightness != (bool)bri) {
_oldBrightness = (bool)bri;
_switchTimerStart = millis();
for (uint8_t i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
if (_relay[i].pin>=0) _relay[i].active = true;
@@ -347,55 +347,35 @@ class MultiRelay : public Usermod {
/**
* restore the changeable values
* readFromConfig() is called before setup() to populate properties from values stored in cfg.json
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject &root) {
int8_t oldPin[MULTI_RELAY_MAX_RELAYS];
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) return false;
if (top[FPSTR(_enabled)] != nullptr) {
if (top[FPSTR(_enabled)].is<bool>()) {
enabled = top[FPSTR(_enabled)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[FPSTR(_enabled)]; // checkbox -> off or on
enabled = (bool)(str!="off"); // off is guaranteed to be present
}
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
enabled = top[FPSTR(_enabled)] | enabled;
for (uint8_t i=0; i<MULTI_RELAY_MAX_RELAYS; i++) {
String parName = FPSTR(_relay_str); parName += "-"; parName += i; parName += "-";
oldPin[i] = _relay[i].pin;
if (top[parName+"pin"] != nullptr) _relay[i].pin = min(39,max(-1,top[parName+"pin"].as<int>()));
if (top[parName+FPSTR(_activeHigh)] != nullptr) {
if (top[parName+FPSTR(_activeHigh)].is<bool>()) {
_relay[i].mode = top[parName+FPSTR(_activeHigh)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[parName+FPSTR(_activeHigh)]; // checkbox -> off or on
_relay[i].mode = (bool)(str!="off"); // off is guaranteed to be present
}
}
if (top[parName+FPSTR(_external)] != nullptr) {
if (top[parName+FPSTR(_external)].is<bool>()) {
_relay[i].external = top[parName+FPSTR(_external)].as<bool>(); // reading from cfg.json
} else {
// change from settings page
String str = top[parName+FPSTR(_external)]; // checkbox -> off or on
_relay[i].external = (bool)(str!="off"); // off is guaranteed to be present
}
}
_relay[i].delay = min(600,max(0,abs(top[parName+FPSTR(_delay_str)].as<int>())));
oldPin[i] = _relay[i].pin;
_relay[i].pin = top[parName+"pin"] | _relay[i].pin;
_relay[i].mode = top[parName+FPSTR(_activeHigh)] | _relay[i].mode;
_relay[i].external = top[parName+FPSTR(_external)] | _relay[i].external;
_relay[i].delay = top[parName+FPSTR(_delay_str)] | _relay[i].delay;
_relay[i].delay = min(600,max(0,abs((int)_relay[i].delay))); // bounds checking max 10min
}
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// reading config prior to setup()
DEBUG_PRINTLN(F("MultiRelay config loaded."));
DEBUG_PRINTLN(F(" config loaded."));
} else {
// deallocate all pins 1st
for (uint8_t i=0; i<MULTI_RELAY_MAX_RELAYS; i++)
@@ -411,8 +391,9 @@ class MultiRelay : public Usermod {
}
_relay[i].active = false;
}
DEBUG_PRINTLN(F("MultiRelay config (re)loaded."));
DEBUG_PRINTLN(F(" config (re)loaded."));
}
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}

44
usermods/usermod_v2_auto_save/usermod_v2_auto_save.h
View File

@@ -33,12 +33,12 @@ class AutoSaveUsermod : public Usermod {
bool enabled = true;
// configurable parameters
unsigned long autoSaveAfterSec = 15; // 15s by default
uint16_t autoSaveAfterSec = 15; // 15s by default
uint8_t autoSavePreset = 250; // last possible preset
bool applyAutoSaveOnBoot = false; // do we load auto-saved preset on boot?
// If we've detected the need to auto save, this will be non zero.
unsigned long autoSaveAfter = 0;
uint16_t autoSaveAfter = 0;
uint8_t knownBrightness = 0;
uint8_t knownEffectSpeed = 0;
@@ -97,7 +97,7 @@ class AutoSaveUsermod : public Usermod {
* Da loop.
*/
void loop() {
if (!autoSaveAfterSec || !enabled) return; // setting 0 as autosave seconds disables autosave
if (!autoSaveAfterSec || !enabled || strip.isUpdating()) return; // setting 0 as autosave seconds disables autosave
unsigned long now = millis();
uint8_t currentMode = strip.getMode();
@@ -197,34 +197,28 @@ class AutoSaveUsermod : public Usermod {
* readFromConfig() is called BEFORE setup(). This means you can use your persistent values in setup() (e.g. pin assignments, buffer sizes),
* but also that if you want to write persistent values to a dynamic buffer, you'd need to allocate it here instead of in setup.
* If you don't know what that is, don't fret. It most likely doesn't affect your use case :)
*
* The function should return true if configuration was successfully loaded or false if there was no configuration.
*/
bool readFromConfig(JsonObject& root) {
// we look for JSON object: {"Autosave": {"autoSaveAfterSec": 10, "autoSavePreset": 99}}
// we look for JSON object: {"Autosave": {"enabled": true, "autoSaveAfterSec": 10, "autoSavePreset": 250, ...}}
JsonObject top = root[FPSTR(_name)];
if (top.isNull()) {
DEBUG_PRINTLN(F("No config found. (Using defaults.)"));
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
if (top[FPSTR(_autoSaveEnabled)].is<bool>()) {
// reading from cfg.json
enabled = top[FPSTR(_autoSaveEnabled)].as<bool>();
} else {
// reading from POST message
String str = top[FPSTR(_autoSaveEnabled)]; // checkbox -> off or on
enabled = (bool)(str!="off"); // off is guaranteed to be present
}
autoSaveAfterSec = min(3600,max(10,top[FPSTR(_autoSaveAfterSec)].as<int>()));
autoSavePreset = min(250,max(100,top[FPSTR(_autoSavePreset)].as<int>()));
if (top[FPSTR(_autoSaveApplyOnBoot)].is<bool>()) {
// reading from cfg.json
applyAutoSaveOnBoot = top[FPSTR(_autoSaveApplyOnBoot)].as<bool>();
} else {
// reading from POST message
String str = top[FPSTR(_autoSaveApplyOnBoot)]; // checkbox -> off or on
applyAutoSaveOnBoot = (bool)(str!="off"); // off is guaranteed to be present
}
DEBUG_PRINTLN(F("Autosave config (re)loaded."));
enabled = top[FPSTR(_autoSaveEnabled)] | enabled;
autoSaveAfterSec = top[FPSTR(_autoSaveAfterSec)] | autoSaveAfterSec;
autoSaveAfterSec = (uint16_t) min(3600,max(10,(int)autoSaveAfterSec)); // bounds checking
autoSavePreset = top[FPSTR(_autoSavePreset)] | autoSavePreset;
autoSavePreset = (uint8_t) min(250,max(100,(int)autoSavePreset)); // bounds checking
applyAutoSaveOnBoot = top[FPSTR(_autoSaveApplyOnBoot)] | applyAutoSaveOnBoot;
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(" config (re)loaded."));
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}

294
usermods/usermod_v2_four_line_display/usermod_v2_four_line_display.h
View File

@@ -54,18 +54,21 @@
#define LINE_BUFFER_SIZE 16+1
typedef enum {
FLD_LINE_4_BRIGHTNESS = 0,
FLD_LINE_4_EFFECT_SPEED,
FLD_LINE_4_EFFECT_INTENSITY,
FLD_LINE_4_MODE,
FLD_LINE_4_PALETTE
FLD_LINE_BRIGHTNESS = 0,
FLD_LINE_EFFECT_SPEED,
FLD_LINE_EFFECT_INTENSITY,
FLD_LINE_MODE,
FLD_LINE_PALETTE,
FLD_LINE_TIME
} Line4Type;
typedef enum {
NONE = 0,
SSD1306, // U8X8_SSD1306_128X32_UNIVISION_HW_I2C
SH1106, // U8X8_SH1106_128X64_WINSTAR_HW_I2C
SSD1306_64 // U8X8_SSD1306_128X64_NONAME_HW_I2C
SSD1306_64, // U8X8_SSD1306_128X64_NONAME_HW_I2C
SSD1305, // U8X8_SSD1305_128X32_ADAFRUIT_HW_I2C
SSD1305_64 // U8X8_SSD1305_128X64_ADAFRUIT_HW_I2C
} DisplayType;
class FourLineDisplayUsermod : public Usermod {
@@ -87,9 +90,6 @@ class FourLineDisplayUsermod : public Usermod {
bool sleepMode = true; // allow screen sleep?
bool clockMode = false; // display clock
// needRedraw marks if redraw is required to prevent often redrawing.
bool needRedraw = true;
// Next variables hold the previous known values to determine if redraw is
// required.
String knownSsid = "";
@@ -106,7 +106,7 @@ class FourLineDisplayUsermod : public Usermod {
unsigned long lastUpdate = 0;
unsigned long lastRedraw = 0;
unsigned long overlayUntil = 0;
Line4Type lineFourType = FLD_LINE_4_BRIGHTNESS;
Line4Type lineType = FLD_LINE_BRIGHTNESS;
// Set to 2 or 3 to mark lines 2 or 3. Other values ignored.
byte markLineNum = 0;
@@ -130,7 +130,7 @@ class FourLineDisplayUsermod : public Usermod {
// gets called once at boot. Do all initialization that doesn't depend on
// network here
void setup() {
if (type==NONE) return;
if (type == NONE) return;
if (!pinManager.allocatePin(sclPin)) { sclPin = -1; type = NONE; return;}
if (!pinManager.allocatePin(sdaPin)) { pinManager.deallocatePin(sclPin); sclPin = sdaPin = -1; type = NONE; return; }
switch (type) {
@@ -141,6 +141,7 @@ class FourLineDisplayUsermod : public Usermod {
else
#endif
u8x8 = (U8X8 *) new U8X8_SSD1306_128X32_UNIVISION_HW_I2C(U8X8_PIN_NONE, sclPin, sdaPin); // Pins are Reset, SCL, SDA
lineHeight = 1;
break;
case SH1106:
#ifdef ESP8266
@@ -149,6 +150,7 @@ class FourLineDisplayUsermod : public Usermod {
else
#endif
u8x8 = (U8X8 *) new U8X8_SH1106_128X64_WINSTAR_HW_I2C(U8X8_PIN_NONE, sclPin, sdaPin); // Pins are Reset, SCL, SDA
lineHeight = 2;
break;
case SSD1306_64:
#ifdef ESP8266
@@ -157,6 +159,25 @@ class FourLineDisplayUsermod : public Usermod {
else
#endif
u8x8 = (U8X8 *) new U8X8_SSD1306_128X64_NONAME_HW_I2C(U8X8_PIN_NONE, sclPin, sdaPin); // Pins are Reset, SCL, SDA
lineHeight = 2;
break;
case SSD1305:
#ifdef ESP8266
if (!(sclPin==5 && sdaPin==4))
u8x8 = (U8X8 *) new U8X8_SSD1305_128X32_NONAME_SW_I2C(sclPin, sdaPin); // SCL, SDA, reset
else
#endif
u8x8 = (U8X8 *) new U8X8_SSD1305_128X32_ADAFRUIT_HW_I2C(U8X8_PIN_NONE, sclPin, sdaPin); // Pins are Reset, SCL, SDA
lineHeight = 1;
break;
case SSD1305_64:
#ifdef ESP8266
if (!(sclPin==5 && sdaPin==4))
u8x8 = (U8X8 *) new U8X8_SSD1305_128X64_ADAFRUIT_SW_I2C(sclPin, sdaPin); // SCL, SDA, reset
else
#endif
u8x8 = (U8X8 *) new U8X8_SSD1305_128X64_ADAFRUIT_HW_I2C(U8X8_PIN_NONE, sclPin, sdaPin); // Pins are Reset, SCL, SDA
lineHeight = 2;
break;
default:
u8x8 = nullptr;
@@ -179,9 +200,7 @@ class FourLineDisplayUsermod : public Usermod {
* Da loop.
*/
void loop() {
if (millis() - lastUpdate < (clockMode?1000:refreshRate)) {
return;
}
if (millis() - lastUpdate < (clockMode?1000:refreshRate) || strip.isUpdating()) return;
lastUpdate = millis();
redraw(false);
@@ -233,9 +252,12 @@ class FourLineDisplayUsermod : public Usermod {
* or if forceRedraw).
*/
void redraw(bool forceRedraw) {
static bool showName = false;
unsigned long now = millis();
if (type==NONE) return;
if (overlayUntil > 0) {
if (millis() >= overlayUntil) {
if (now >= overlayUntil) {
// Time to display the overlay has elapsed.
overlayUntil = 0;
forceRedraw = true;
@@ -247,74 +269,63 @@ class FourLineDisplayUsermod : public Usermod {
}
// Check if values which are shown on display changed from the last time.
if (forceRedraw) {
needRedraw = true;
} else if (((apActive) ? String(apSSID) : WiFi.SSID()) != knownSsid) {
needRedraw = true;
} else if (knownIp != (apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP())) {
needRedraw = true;
} else if (knownBrightness != bri) {
needRedraw = true;
} else if (knownEffectSpeed != effectSpeed) {
needRedraw = true;
} else if (knownEffectIntensity != effectIntensity) {
needRedraw = true;
} else if (knownMode != strip.getMode()) {
needRedraw = true;
} else if (knownPalette != strip.getSegment(0).palette) {
needRedraw = true;
}
if (!needRedraw) {
if (forceRedraw ||
(((apActive) ? String(apSSID) : WiFi.SSID()) != knownSsid) ||
(knownIp != (apActive ? IPAddress(4, 3, 2, 1) : Network.localIP())) ||
(knownBrightness != bri) ||
(knownEffectSpeed != effectSpeed) ||
(knownEffectIntensity != effectIntensity) ||
(knownMode != strip.getMode()) ||
(knownPalette != strip.getSegment(0).palette)) {
knownHour = 99; // force time update
clear();
} else if (sleepMode && !displayTurnedOff && ((now - lastRedraw)/1000)%5 == 0) {
// change line every 5s
showName = !showName;
switch (lineType) {
case FLD_LINE_BRIGHTNESS:
lineType = FLD_LINE_EFFECT_SPEED;
break;
case FLD_LINE_MODE:
lineType = FLD_LINE_BRIGHTNESS;
break;
case FLD_LINE_PALETTE:
lineType = clockMode ? FLD_LINE_MODE : FLD_LINE_BRIGHTNESS;
break;
case FLD_LINE_EFFECT_SPEED:
lineType = FLD_LINE_EFFECT_INTENSITY;
break;
case FLD_LINE_EFFECT_INTENSITY:
lineType = FLD_LINE_PALETTE;
break;
default:
lineType = FLD_LINE_MODE;
break;
}
knownHour = 99; // force time update
} else {
// Nothing to change.
// Turn off display after 3 minutes with no change.
if(sleepMode && !displayTurnedOff && (millis() - lastRedraw > screenTimeout)) {
// We will still check if there is a change in redraw()
// and turn it back on if it changed.
knownHour = 99; // force screen clear
clear(); // force screen clear
sleepOrClock(true);
} else if (displayTurnedOff && clockMode) {
showTime();
} else if ((millis() - lastRedraw)/1000%3 == 0) {
// change 4th line every 3s
switch (lineFourType) {
case FLD_LINE_4_BRIGHTNESS:
setLineFourType(FLD_LINE_4_EFFECT_SPEED);
break;
case FLD_LINE_4_MODE:
setLineFourType(FLD_LINE_4_BRIGHTNESS);
break;
case FLD_LINE_4_PALETTE:
setLineFourType(clockMode ? FLD_LINE_4_MODE : FLD_LINE_4_BRIGHTNESS);
break;
case FLD_LINE_4_EFFECT_SPEED:
setLineFourType(FLD_LINE_4_EFFECT_INTENSITY);
break;
case FLD_LINE_4_EFFECT_INTENSITY:
setLineFourType(FLD_LINE_4_PALETTE);
break;
default:
break;
}
drawLineFour();
}
return;
} else {
knownHour = 99; // force time display
clear();
}
needRedraw = false;
lastRedraw = millis();
// do not update lastRedraw marker if just switching row contenet
if (((now - lastRedraw)/1000)%5 != 0) lastRedraw = now;
if (displayTurnedOff) {
// Turn the display back on
sleepOrClock(false);
}
// Turn the display back on
if (displayTurnedOff) sleepOrClock(false);
// Update last known values.
knownSsid = apActive ? WiFi.softAPSSID() : WiFi.SSID();
knownIp = apActive ? IPAddress(4, 3, 2, 1) : WiFi.localIP();
knownIp = apActive ? IPAddress(4, 3, 2, 1) : Network.localIP();
knownBrightness = bri;
knownMode = strip.getMode();
knownPalette = strip.getSegment(0).palette;
@@ -324,7 +335,7 @@ class FourLineDisplayUsermod : public Usermod {
// Do the actual drawing
// First row with Wifi name
drawGlyph(0, 0, 80, u8x8_font_open_iconic_embedded_1x1); // wifi icon
drawGlyph(0, 0, 80, u8x8_font_open_iconic_embedded_1x1); // home icon
String ssidString = knownSsid.substring(0, getCols() > 1 ? getCols() - 2 : 0);
drawString(1, 0, ssidString.c_str());
// Print `~` char to indicate that SSID is longer, than our display
@@ -333,46 +344,54 @@ class FourLineDisplayUsermod : public Usermod {
}
// Second row with IP or Psssword
drawGlyph(0, lineHeight, 68, u8x8_font_open_iconic_embedded_1x1); // home icon
drawGlyph(0, lineHeight, 68, u8x8_font_open_iconic_embedded_1x1); // wifi icon
// Print password in AP mode and if led is OFF.
if (apActive && bri == 0) {
drawString(1, lineHeight, apPass);
} else {
drawString(1, lineHeight, (knownIp.toString()).c_str());
// alternate IP address and server name
String secondLine = knownIp.toString();
if (showName && strcmp(serverDescription, "WLED") != 0) {
secondLine = serverDescription;
}
for (uint8_t i=secondLine.length(); i<getCols()-1; i++) secondLine += ' ';
drawString(1, lineHeight, secondLine.c_str());
}
// Third row with mode name or current time
if (clockMode) showTime(false);
else showCurrentEffectOrPalette(knownMode, JSON_mode_names, 2);
// Fourth row
drawLineFour();
// draw third and fourth row
drawLine(2, clockMode ? lineType : FLD_LINE_MODE);
drawLine(3, clockMode ? FLD_LINE_TIME : lineType);
drawGlyph(0, 2*lineHeight, 66 + (bri > 0 ? 3 : 0), u8x8_font_open_iconic_weather_2x2); // sun/moon icon
//if (markLineNum>1) drawGlyph(2, markLineNum*lineHeight, 66, u8x8_font_open_iconic_arrow_1x1); // arrow icon
}
void drawLineFour() {
void drawLine(uint8_t line, Line4Type lineType) {
char lineBuffer[LINE_BUFFER_SIZE];
switch(lineFourType) {
case FLD_LINE_4_BRIGHTNESS:
switch(lineType) {
case FLD_LINE_BRIGHTNESS:
sprintf_P(lineBuffer, PSTR("Brightness %3d"), bri);
drawString(2, 3*lineHeight, lineBuffer);
drawString(2, line*lineHeight, lineBuffer);
break;
case FLD_LINE_4_EFFECT_SPEED:
case FLD_LINE_EFFECT_SPEED:
sprintf_P(lineBuffer, PSTR("FX Speed %3d"), effectSpeed);
drawString(2, 3*lineHeight, lineBuffer);
drawString(2, line*lineHeight, lineBuffer);
break;
case FLD_LINE_4_EFFECT_INTENSITY:
case FLD_LINE_EFFECT_INTENSITY:
sprintf_P(lineBuffer, PSTR("FX Intens. %3d"), effectIntensity);
drawString(2, 3*lineHeight, lineBuffer);
drawString(2, line*lineHeight, lineBuffer);
break;
case FLD_LINE_4_MODE:
showCurrentEffectOrPalette(knownMode, JSON_mode_names, 3);
case FLD_LINE_MODE:
showCurrentEffectOrPalette(knownMode, JSON_mode_names, line);
break;
case FLD_LINE_PALETTE:
showCurrentEffectOrPalette(knownPalette, JSON_palette_names, line);
break;
case FLD_LINE_TIME:
showTime(false);
break;
case FLD_LINE_4_PALETTE:
default:
showCurrentEffectOrPalette(knownPalette, JSON_palette_names, 3);
// unknown type, do nothing
break;
}
}
@@ -447,23 +466,6 @@ class FourLineDisplayUsermod : public Usermod {
overlayUntil = millis() + showHowLong;
}
/**
* Specify what data should be defined on line 4
* (the last line).
*/
void setLineFourType(Line4Type newLineFourType) {
if (newLineFourType == FLD_LINE_4_BRIGHTNESS ||
newLineFourType == FLD_LINE_4_EFFECT_SPEED ||
newLineFourType == FLD_LINE_4_EFFECT_INTENSITY ||
newLineFourType == FLD_LINE_4_MODE ||
newLineFourType == FLD_LINE_4_PALETTE) {
lineFourType = newLineFourType;
} else {
// Unknown value
lineFourType = FLD_LINE_4_BRIGHTNESS;
}
}
/**
* Line 3 or 4 (last two lines) can be marked with an
* arrow in the first column. Pass 2 or 3 to this to
@@ -487,8 +489,7 @@ class FourLineDisplayUsermod : public Usermod {
if (clockMode) showTime();
else setPowerSave(1);
displayTurnedOff = true;
}
else {
} else {
setPowerSave(0);
displayTurnedOff = false;
}
@@ -504,13 +505,13 @@ class FourLineDisplayUsermod : public Usermod {
updateLocalTime();
byte minuteCurrent = minute(localTime);
byte hourCurrent = hour(localTime);
byte hourCurrent = hour(localTime);
byte secondCurrent = second(localTime);
if (knownMinute == minuteCurrent && knownHour == hourCurrent) {
// Time hasn't changed.
if (!fullScreen) return;
} else {
if (fullScreen) clear();
//if (fullScreen) clear();
}
knownMinute = minuteCurrent;
knownHour = hourCurrent;
@@ -520,7 +521,7 @@ class FourLineDisplayUsermod : public Usermod {
if (fullScreen)
draw2x2String(DATE_INDENT, lineHeight==1 ? 0 : lineHeight, lineBuffer); // adjust for 8 line displays
else
drawString(2, lineHeight*2, lineBuffer);
drawString(2, lineHeight*3, lineBuffer);
byte showHour = hourCurrent;
boolean isAM = false;
@@ -544,11 +545,12 @@ class FourLineDisplayUsermod : public Usermod {
if (fullScreen) {
draw2x2String(TIME_INDENT+2, lineHeight*2, lineBuffer);
sprintf_P(lineBuffer, PSTR("%02d"), secondCurrent);
if (!useAMPM) drawString(12, lineHeight*2+1, lineBuffer, true); // even with double sized rows print seconds in 1 line
if (useAMPM) drawString(12+(fullScreen?0:2), lineHeight*2, (isAM ? "AM" : "PM"), true);
else drawString(12, lineHeight*2+1, lineBuffer, true); // even with double sized rows print seconds in 1 line
} else {
drawString(9+(useAMPM?0:2), lineHeight*2, lineBuffer);
drawString(9+(useAMPM?0:2), lineHeight*3, lineBuffer);
if (useAMPM) drawString(12+(fullScreen?0:2), lineHeight*3, (isAM ? "AM" : "PM"), true);
}
if (useAMPM) drawString(12+(fullScreen?0:2), lineHeight*2, (isAM ? "AM" : "PM"), true);
}
/*
@@ -621,55 +623,34 @@ class FourLineDisplayUsermod : public Usermod {
int8_t newScl = sclPin;
int8_t newSda = sdaPin;
bool configComplete = true;
JsonObject top = root[FPSTR(_name)];
if (!top.isNull() && top["pin"] != nullptr) {
newScl = top["pin"][0];
newSda = top["pin"][1];
newType = top["type"];
if (top[FPSTR(_flip)].is<bool>()) {
flip = top[FPSTR(_flip)].as<bool>();
} else {
String str = top[FPSTR(_flip)]; // checkbox -> off or on
flip = (bool)(str!="off"); // off is guaranteed to be present
needRedraw |= true;
}
contrast = top[FPSTR(_contrast)].as<int>();
refreshRate = top[FPSTR(_refreshRate)].as<int>() * 1000;
screenTimeout = top[FPSTR(_screenTimeOut)].as<int>() * 1000;
if (top[FPSTR(_sleepMode)].is<bool>()) {
sleepMode = top[FPSTR(_sleepMode)].as<bool>();
} else {
String str = top[FPSTR(_sleepMode)]; // checkbox -> off or on
sleepMode = (bool)(str!="off"); // off is guaranteed to be present
needRedraw |= true;
}
if (top[FPSTR(_clockMode)].is<bool>()) {
clockMode = top[FPSTR(_clockMode)].as<bool>();
} else {
String str = top[FPSTR(_clockMode)]; // checkbox -> off or on
clockMode = (bool)(str!="off"); // off is guaranteed to be present
needRedraw |= true;
}
DEBUG_PRINTLN(F("4 Line Display config (re)loaded."));
} else {
DEBUG_PRINTLN(F("No config found. (Using defaults.)"));
configComplete = false;
if (top.isNull()) {
DEBUG_PRINT(FPSTR(_name));
DEBUG_PRINTLN(F(": No config found. (Using defaults.)"));
return false;
}
newScl = top["pin"][0] | newScl;
newSda = top["pin"][1] | newSda;
newType = top["type"] | newType;
flip = top[FPSTR(_flip)] | flip;
contrast = top[FPSTR(_contrast)] | contrast;
refreshRate = (top[FPSTR(_refreshRate)] | refreshRate/1000) * 1000;
screenTimeout = (top[FPSTR(_screenTimeOut)] | screenTimeout/1000) * 1000;
sleepMode = top[FPSTR(_sleepMode)] | sleepMode;
clockMode = top[FPSTR(_clockMode)] | clockMode;
DEBUG_PRINT(FPSTR(_name));
if (!initDone) {
// first run: reading from cfg.json
sclPin = newScl;
sdaPin = newSda;
type = newType;
lineHeight = type==SSD1306 ? 1 : 2;
DEBUG_PRINTLN(F(" config loaded."));
} else {
// changing paramters from settings page
if (sclPin!=newScl || sdaPin!=newSda || type!=newType) {
if (type==SSD1306) delete (static_cast<U8X8*>(u8x8));
if (type==SH1106) delete (static_cast<U8X8*>(u8x8));
if (type==SSD1306_64) delete (static_cast<U8X8*>(u8x8));
if (type != NONE) delete (static_cast<U8X8*>(u8x8));
pinManager.deallocatePin(sclPin);
pinManager.deallocatePin(sdaPin);
sclPin = newScl;
@@ -677,18 +658,17 @@ class FourLineDisplayUsermod : public Usermod {
if (newScl<0 || newSda<0) {
type = NONE;
return true;
} else
type = newType;
lineHeight = type==SSD1306 ? 1 : 2;
} else type = newType;
setup();
needRedraw |= true;
needsRedraw |= true;
}
setContrast(contrast);
setFlipMode(flip);
if (needsRedraw && !wakeDisplay()) redraw(true);
DEBUG_PRINTLN(F(" config (re)loaded."));
}
return configComplete;
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return true;
}
/*