Merge pull request #3490 from JeffWDH/main

Add LDR sensor dusk/dawn preset control Usermod
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Blaž Kristan 2023-11-02 16:47:00 +01:00 committed by GitHub
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# LDR_Dusk_Dawn_v2
This usermod will obtain readings from a Light Dependent Resistor (LDR) and will turn on/off specific presets based on those readings. This is useful for exterior lighting situations where you want the lights to only be on when it is dark out.
# Installation
Add "-D USERMOD_LDR_DUSK_DAWN" to your platformio.ini [common] build_flags and build.
Example:
```
[common]
build_flags =
-D USERMOD_LDR_DUSK_DAWN # Enable LDR Dusk Dawn Usermod
```
# Usermod Settings
Setting | Description | Default
--- | --- | ---
Enabled | Enable/Disable the LDR functionality. | Disabled
LDR Pin | The analog capable pin your LDR is connected to. | 34
Threshold Minutes | The number of minutes of consistent readings above/below the on/off threshold before the LED state will change. | 5
Threshold | The analog read value threshold from the LDR. Readings lower than this number will count towards changing the LED state to off. You can see the current LDR reading by going into the info section when LDR functionality is enabled. | 1000
On Preset | The WLED preset to be used for the LED on state. | 1
Off Preset | The WLED preset to be used for the LED off state. | 2
## Author
[@jeffwdh](https://github.com/jeffwdh)
jeffwdh@tarball.ca

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#pragma once
#include "wled.h"
class LDR_Dusk_Dawn_v2 : public Usermod {
private:
// Defaults
bool ldrEnabled = false;
int ldrPin = 34; //A2 on Adafruit Huzzah32
int ldrThresholdMinutes = 5; // How many minutes of readings above/below threshold until it switches LED state
int ldrThreshold = 1000; // Readings higher than this number will turn off LED.
int ldrOnPreset = 1; // Default "On" Preset
int ldrOffPreset = 2; // Default "Off" Preset
// Variables
bool ldrEnabledPreviously = false; // Was LDR enabled for the previous check? First check is always no.
int ldrOffCount; // Number of readings above the threshold
int ldrOnCount; // Number of readings below the threshold
int ldrReading; // Last LDR reading
int ldrLEDState; // Current LED on/off state
unsigned long lastMillis = 0;
static const char _name[];
public:
void setup() {
}
void loop() {
// Only update every 10 seconds
if (millis() - lastMillis > 10000) {
if (ldrEnabled == true) {
// Default state is off
if (ldrEnabledPreviously == false) {
applyPreset(ldrOffPreset);
ldrEnabledPreviously = true;
ldrLEDState = 0;
}
// Get LDR reading and increment counter by number of seconds since last read
ldrReading = analogRead(ldrPin);
if (ldrReading <= ldrThreshold) {
ldrOnCount = ldrOnCount + 10;
ldrOffCount = 0;
} else {
ldrOffCount = ldrOffCount + 10;
ldrOnCount = 0;
}
if (ldrOnCount >= (ldrThresholdMinutes * 60)) {
ldrOnCount = 0;
// If LEDs were previously off, turn on
if (ldrLEDState == 0) {
applyPreset(ldrOnPreset);
ldrLEDState = 1;
}
}
if (ldrOffCount >= (ldrThresholdMinutes * 60)) {
ldrOffCount = 0;
// If LEDs were previously on, turn off
if (ldrLEDState == 1) {
applyPreset(ldrOffPreset);
ldrLEDState = 0;
}
}
} else {
// LDR is disabled, reset variables to default
ldrReading = 0;
ldrOnCount = 0;
ldrOffCount = 0;
ldrLEDState = 0;
ldrEnabledPreviously = false;
}
lastMillis = millis();
}
}
void addToConfig(JsonObject& root) {
JsonObject top = root.createNestedObject(FPSTR(_name));
top["Enabled"] = ldrEnabled;
top["LDR Pin"] = ldrPin;
top["Threshold Minutes"] = ldrThresholdMinutes;
top["Threshold"] = ldrThreshold;
top["On Preset"] = ldrOnPreset;
top["Off Preset"] = ldrOffPreset;
}
bool readFromConfig(JsonObject& root) {
JsonObject top = root[FPSTR(_name)];
bool configComplete = !top.isNull();
configComplete &= getJsonValue(top["Enabled"], ldrEnabled);
configComplete &= getJsonValue(top["LDR Pin"], ldrPin);
configComplete &= getJsonValue(top["Threshold Minutes"], ldrThresholdMinutes);
configComplete &= getJsonValue(top["Threshold"], ldrThreshold);
configComplete &= getJsonValue(top["On Preset"], ldrOnPreset);
configComplete &= getJsonValue(top["Off Preset"], ldrOffPreset);
return configComplete;
}
void addToJsonInfo(JsonObject& root) {
// If "u" object does not exist yet we need to create it
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
JsonArray LDR_Enabled = user.createNestedArray("LDR dusk/dawn enabled");
LDR_Enabled.add(ldrEnabled);
JsonArray LDR_Reading = user.createNestedArray("LDR reading");
LDR_Reading.add(ldrReading);
JsonArray LDR_State = user.createNestedArray("LDR turned LEDs on");
LDR_State.add(bool(ldrLEDState));
// Optional debug information:
//JsonArray LDR_On_Count = user.createNestedArray("LDR on count");
//LDR_On_Count.add(ldrOnCount);
//JsonArray LDR_Off_Count = user.createNestedArray("LDR off count");
//LDR_Off_Count.add(ldrOffCount);
}
uint16_t getId() {
return USERMOD_ID_LDR_DUSK_DAWN;
}
};
const char LDR_Dusk_Dawn_v2::_name[] PROGMEM = "LDR_Dusk_Dawn_v2";

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#define USERMOD_ID_KLIPPER 40 //Usermod Klipper percentage
#define USERMOD_ID_WIREGUARD 41 //Usermod "wireguard.h"
#define USERMOD_ID_INTERNAL_TEMPERATURE 42 //Usermod "usermod_internal_temperature.h"
#define USERMOD_ID_LDR_DUSK_DAWN 43 //Usermod "usermod_LDR_Dusk_Dawn_v2.h"
//Access point behavior
#define AP_BEHAVIOR_BOOT_NO_CONN 0 //Open AP when no connection after boot

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#include "../usermods/pwm_outputs/usermod_pwm_outputs.h"
#endif
#ifdef USERMOD_LDR_DUSK_DAWN
#include "../usermods/LDR_Dusk_Dawn_v2/usermod_LDR_Dusk_Dawn_v2.h"
#endif
void registerUsermods()
{
@ -373,4 +376,8 @@ void registerUsermods()
#ifdef USERMOD_INTERNAL_TEMPERATURE
usermods.add(new InternalTemperatureUsermod());
#endif
#ifdef USERMOD_LDR_DUSK_DAWN
usermods.add(new LDR_Dusk_Dawn_v2());
#endif
}