diff --git a/docs/local-server.md b/docs/local-server.md
index f4b3f0c..a65dd6e 100644
--- a/docs/local-server.md
+++ b/docs/local-server.md
@@ -156,7 +156,7 @@ If the monitor is set up on the AirGradient dashboard, it will also receive the
| `tvocLearningOffset` | Set VOC learning gain offset. | Number | 0-720 (default 12) | `{"tvocLearningOffset": 12}` |
| `offlineMode` | Set monitor to run without WiFi. | Boolean | `false`: Disabled (default)
`true`: Enabled | `{"offlineMode": true}` |
| `monitorDisplayCompensatedValues` | Set the display show the PM value with/without compensate value (only on [3.1.9]()) | Boolean | `false`: Without compensate (default)
`true`: with compensate | `{"monitorDisplayCompensatedValues": false }` |
-| `corrections` | Sets correction options to display and measurement values on local server response. | Object | _see corretions section_ | _see corretions section_ |
+| `corrections` | Sets correction options to display and measurement values on local server response. | Object | _see corrections section_ | _see corrections section_ |
diff --git a/examples/OneOpenAir/OneOpenAir.ino b/examples/OneOpenAir/OneOpenAir.ino
index 87d5d21..1700ebb 100644
--- a/examples/OneOpenAir/OneOpenAir.ino
+++ b/examples/OneOpenAir/OneOpenAir.ino
@@ -168,7 +168,7 @@ void setup() {
boardInit();
setMeasurementMaxPeriod();
- // Uncomment below line to print every measurements reading update
+ // Comment below line to disable debug measurement readings
measurements.setDebug(true);
/** Connecting wifi */
diff --git a/src/AgStateMachine.cpp b/src/AgStateMachine.cpp
index e36446f..978eab4 100644
--- a/src/AgStateMachine.cpp
+++ b/src/AgStateMachine.cpp
@@ -13,6 +13,7 @@
#define RGB_COLOR_Y 255, 150, 0 /** Yellow */
#define RGB_COLOR_O 255, 40, 0 /** Orange */
#define RGB_COLOR_P 180, 0, 255 /** Purple */
+#define RGB_COLOR_CLEAR 0, 0, 0 /** No color */
/**
* @brief Animation LED bar with color
@@ -47,47 +48,67 @@ void StateMachine::ledStatusBlinkDelay(uint32_t ms) {
}
/**
- * @brief Led bar show led color status
+ * @brief Led bar show PM or CO2 led color status
*
+ * @return true if all led bar are used, false othwerwise
*/
-void StateMachine::sensorhandleLeds(void) {
+bool StateMachine::sensorhandleLeds(void) {
+ int totalLedUsed = 0;
switch (config.getLedBarMode()) {
case LedBarMode::LedBarModeCO2:
- co2handleLeds();
+ totalLedUsed = co2handleLeds();
break;
case LedBarMode::LedBarModePm:
- pm25handleLeds();
+ totalLedUsed = pm25handleLeds();
break;
default:
ag->ledBar.clear();
break;
}
+
+ if (totalLedUsed == ag->ledBar.getNumberOfLeds()) {
+ return true;
+ }
+
+ // Clear the rest of unused led
+ int startIndex = totalLedUsed + 1;
+ for (int i = startIndex; i <= ag->ledBar.getNumberOfLeds(); i++) {
+ ag->ledBar.setColor(RGB_COLOR_CLEAR, ag->ledBar.getNumberOfLeds() - i);
+ }
+
+ return false;
}
/**
* @brief Show CO2 LED status
*
+ * @return return total number of led that are used on the monitor
*/
-void StateMachine::co2handleLeds(void) {
+int StateMachine::co2handleLeds(void) {
+ int totalUsed = ag->ledBar.getNumberOfLeds();
int co2Value = value.get(Measurements::CO2);
if (co2Value <= 700) {
/** G; 1 */
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 1);
+ totalUsed = 1;
} else if (co2Value <= 1000) {
/** GG; 2 */
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 2);
+ totalUsed = 2;
} else if (co2Value <= 1333) {
/** YYY; 3 */
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 2);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 3);
+ totalUsed = 3;
} else if (co2Value <= 1666) {
/** OOOO; 4 */
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 2);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 3);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 4);
+ totalUsed = 4;
} else if (co2Value <= 2000) {
/** OOOOO; 5 */
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 1);
@@ -95,6 +116,7 @@ void StateMachine::co2handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 3);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 4);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 5);
+ totalUsed = 5;
} else if (co2Value <= 2666) {
/** RRRRRR; 6 */
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 1);
@@ -103,6 +125,7 @@ void StateMachine::co2handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 4);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 5);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 6);
+ totalUsed = 6;
} else if (co2Value <= 3333) {
/** RRRRRRR; 7 */
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 1);
@@ -112,6 +135,7 @@ void StateMachine::co2handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 5);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 6);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 7);
+ totalUsed = 7;
} else if (co2Value <= 4000) {
/** RRRRRRRR; 8 */
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 1);
@@ -122,6 +146,7 @@ void StateMachine::co2handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 6);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 7);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 8);
+ totalUsed = 8;
} else { /** > 4000 */
/* PRPRPRPRP; 9 */
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 1);
@@ -133,14 +158,19 @@ void StateMachine::co2handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 7);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 8);
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 9);
+ totalUsed = 9;
}
+
+ return totalUsed;
}
/**
* @brief Show PM2.5 LED status
- *
+ *
+ * @return return total number of led that are used on the monitor
*/
-void StateMachine::pm25handleLeds(void) {
+int StateMachine::pm25handleLeds(void) {
+ int totalUsed = ag->ledBar.getNumberOfLeds();
int pm25Value = value.get(Measurements::PM25);
if (config.hasSensorSHT && config.isPMCorrectionEnabled()) {
pm25Value = (int)value.getCorrectedPM25(*ag, config);
@@ -149,21 +179,25 @@ void StateMachine::pm25handleLeds(void) {
if (pm25Value <= 5) {
/** G; 1 */
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 1);
+ totalUsed = 1;
} else if (pm25Value <= 9) {
/** GG; 2 */
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_G, ag->ledBar.getNumberOfLeds() - 2);
+ totalUsed = 2;
} else if (pm25Value <= 20) {
/** YYY; 3 */
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 2);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 3);
+ totalUsed = 3;
} else if (pm25Value <= 35) {
/** YYYY; 4 */
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 1);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 2);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 3);
ag->ledBar.setColor(RGB_COLOR_Y, ag->ledBar.getNumberOfLeds() - 4);
+ totalUsed = 4;
} else if (pm25Value <= 45) {
/** OOOOO; 5 */
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 1);
@@ -171,6 +205,7 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 3);
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 4);
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 5);
+ totalUsed = 5;
} else if (pm25Value <= 55) {
/** OOOOOO; 6 */
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 1);
@@ -179,6 +214,7 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 4);
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 5);
ag->ledBar.setColor(RGB_COLOR_O, ag->ledBar.getNumberOfLeds() - 6);
+ totalUsed = 6;
} else if (pm25Value <= 100) {
/** RRRRRRR; 7 */
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 1);
@@ -188,6 +224,7 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 5);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 6);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 7);
+ totalUsed = 7;
} else if (pm25Value <= 125) {
/** RRRRRRRR; 8 */
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 1);
@@ -198,6 +235,7 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 6);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 7);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 8);
+ totalUsed = 8;
} else if (pm25Value <= 225) {
/** PPPPPPPPP; 9 */
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 1);
@@ -209,6 +247,7 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 7);
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 8);
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 9);
+ totalUsed = 9;
} else { /** > 225 */
/* PRPRPRPRP; 9 */
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 1);
@@ -220,7 +259,10 @@ void StateMachine::pm25handleLeds(void) {
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 7);
ag->ledBar.setColor(RGB_COLOR_R, ag->ledBar.getNumberOfLeds() - 8);
ag->ledBar.setColor(RGB_COLOR_P, ag->ledBar.getNumberOfLeds() - 9);
+ totalUsed = 9;
}
+
+ return totalUsed;
}
void StateMachine::co2Calibration(void) {
@@ -311,6 +353,7 @@ void StateMachine::co2Calibration(void) {
void StateMachine::ledBarTest(void) {
if (config.isLedBarTestRequested()) {
if (ag->isOne()) {
+ ag->ledBar.clear();
if (config.getCountry() == "TH") {
uint32_t tstart = millis();
logInfo("Start run LED test for 2 min");
@@ -332,7 +375,12 @@ void StateMachine::ledBarTest(void) {
}
}
-void StateMachine::ledBarPowerUpTest(void) { ledBarRunTest(); }
+void StateMachine::ledBarPowerUpTest(void) {
+ if (ag->isOne()) {
+ ag->ledBar.clear();
+ }
+ ledBarRunTest();
+}
void StateMachine::ledBarRunTest(void) {
if (ag->isOne()) {
@@ -585,15 +633,13 @@ void StateMachine::handleLeds(AgStateMachineState state) {
}
ledState = state;
- if (ag->isOne()) {
- ag->ledBar.clear(); // Set all LED OFF
- }
switch (state) {
case AgStateMachineWiFiManagerMode: {
/** In WiFi Manager Mode */
/** Turn LED OFF */
/** Turn middle LED Color */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(0, 0, 255, ag->ledBar.getNumberOfLeds() / 2);
} else {
ag->statusLed.setToggle();
@@ -603,6 +649,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiManagerPortalActive: {
/** WiFi Manager has connected to mobile phone */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(0, 0, 255);
} else {
ag->statusLed.setOn();
@@ -613,6 +660,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
/** after SSID and PW entered and OK clicked, connection to WiFI network is
* attempted */
if (ag->isOne()) {
+ ag->ledBar.clear();
ledBarSingleLedAnimation(255, 255, 255);
} else {
ag->statusLed.setOff();
@@ -622,6 +670,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiManagerStaConnected: {
/** Connecting to WiFi worked */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(255, 255, 255);
} else {
ag->statusLed.setOff();
@@ -631,6 +680,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiOkServerConnecting: {
/** once connected to WiFi an attempt to reach the server is performed */
if (ag->isOne()) {
+ ag->ledBar.clear();
ledBarSingleLedAnimation(0, 255, 0);
} else {
ag->statusLed.setOff();
@@ -640,6 +690,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiOkServerConnected: {
/** Server is reachable, all fine */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(0, 255, 0);
} else {
ag->statusLed.setOff();
@@ -656,6 +707,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiManagerConnectFailed: {
/** Cannot connect to WiFi (e.g. wrong password, WPA Enterprise etc.) */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(255, 0, 0);
} else {
ag->statusLed.setOff();
@@ -674,6 +726,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
/** Connected to WiFi but server not reachable, e.g. firewall block/
* whitelisting needed etc. */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(233, 183, 54); /** orange */
} else {
ag->statusLed.setOff();
@@ -690,6 +743,7 @@ void StateMachine::handleLeds(AgStateMachineState state) {
case AgStateMachineWiFiOkServerOkSensorConfigFailed: {
/** Server reachable but sensor not configured correctly */
if (ag->isOne()) {
+ ag->ledBar.clear();
ag->ledBar.setColor(139, 24, 248); /** violet */
} else {
ag->statusLed.setOff();
@@ -707,11 +761,10 @@ void StateMachine::handleLeds(AgStateMachineState state) {
/** Connection to WiFi network failed credentials incorrect encryption not
* supported etc. */
if (ag->isOne()) {
- /** WIFI failed status LED color */
- ag->ledBar.setColor(255, 0, 0, 0);
- /** Show CO2 or PM color status */
- // sensorLedColorHandler();
- sensorhandleLeds();
+ bool allUsed = sensorhandleLeds();
+ if (allUsed == false) {
+ ag->ledBar.setColor(255, 0, 0, 0);
+ }
} else {
ag->statusLed.setOff();
}
@@ -721,11 +774,10 @@ void StateMachine::handleLeds(AgStateMachineState state) {
/** Connected to WiFi network but the server cannot be reached through the
* internet, e.g. blocked by firewall */
if (ag->isOne()) {
- ag->ledBar.setColor(233, 183, 54, 0);
-
- /** Show CO2 or PM color status */
- sensorhandleLeds();
- // sensorLedColorHandler();
+ bool allUsed = sensorhandleLeds();
+ if (allUsed == false) {
+ ag->ledBar.setColor(233, 183, 54, 0);
+ }
} else {
ag->statusLed.setOff();
}
@@ -735,10 +787,10 @@ void StateMachine::handleLeds(AgStateMachineState state) {
/** Server is reachable but there is some configuration issue to be fixed on
* the server side */
if (ag->isOne()) {
- ag->ledBar.setColor(139, 24, 248, 0);
-
- /** Show CO2 or PM color status */
- sensorhandleLeds();
+ bool allUsed = sensorhandleLeds();
+ if (allUsed == false) {
+ ag->ledBar.setColor(139, 24, 248, 0);
+ }
} else {
ag->statusLed.setOff();
}
diff --git a/src/AgStateMachine.h b/src/AgStateMachine.h
index 7dfe0c4..382a25f 100644
--- a/src/AgStateMachine.h
+++ b/src/AgStateMachine.h
@@ -24,9 +24,9 @@ private:
void ledBarSingleLedAnimation(uint8_t r, uint8_t g, uint8_t b);
void ledStatusBlinkDelay(uint32_t delay);
- void sensorhandleLeds(void);
- void co2handleLeds(void);
- void pm25handleLeds(void);
+ bool sensorhandleLeds(void);
+ int co2handleLeds(void);
+ int pm25handleLeds(void);
void co2Calibration(void);
void ledBarTest(void);
void ledBarPowerUpTest(void);