modularized led, doesn't work yet, though

This commit is contained in:
Ronald Schaten 2016-04-09 00:21:18 +02:00
parent 2dd13a685e
commit 8523833139
2 changed files with 108 additions and 65 deletions

101
things/DeviceLed.h Normal file
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@ -0,0 +1,101 @@
#ifndef DEVICELED_H
#define DEVICELED_H
#include "Device.h"
#include <Homie.h>
class DeviceLed : public Device {
public:
inline DeviceLed(byte ledRed, byte ledGreen, byte ledBlue) {
pinRed = ledRed;
pinGreen = ledGreen;
pinBlue = ledBlue;
}
virtual void setup();
virtual void homieRegister();
virtual void loop();
bool ledOnHandler(String value);
bool ledColorHandler(String message);
private:
byte pinRed;
byte pinGreen;
byte pinBlue;
int led_red = 0;
int led_green = 0;
int led_blue = 0;
HomieNode ledNode{"led", "rgb"};
};
void DeviceLed::setup() {
pinMode(pinRed, OUTPUT);
pinMode(pinGreen, OUTPUT);
pinMode(pinBlue, OUTPUT);
analogWrite(pinRed, led_red);
analogWrite(pinGreen, led_green);
analogWrite(pinBlue, led_blue);
}
bool DeviceLed::ledOnHandler(String value) {
if (value == "true") {
analogWrite(pinRed, led_red);
analogWrite(pinGreen, led_green);
analogWrite(pinBlue, led_blue);
Homie.setNodeProperty(ledNode, "on", "true");
Serial.println("led is on");
} else if (value == "false") {
analogWrite(pinRed, 0);
analogWrite(pinGreen, 0);
analogWrite(pinBlue, 0);
Homie.setNodeProperty(ledNode, "on", "false");
Serial.println("led is off");
} else {
return false;
}
return true;
}
bool DeviceLed::ledColorHandler(String message) {
DynamicJsonBuffer json_inBuffer;
JsonObject& json_in = json_inBuffer.parseObject(message);
if (json_in.success()) {
if (json_in.containsKey("red")) {
led_red = json_in["red"];
analogWrite(pinRed, led_red);
}
if (json_in.containsKey("green")) {
led_green = json_in["green"];
analogWrite(pinGreen, led_green);
}
if (json_in.containsKey("blue")) {
led_blue = json_in["blue"];
analogWrite(pinBlue, led_blue);
}
} else {
Serial.println("parsing of JSON failed");
}
DynamicJsonBuffer json_outBuffer;
JsonObject& json_out = json_outBuffer.createObject();
json_out["red"] = led_red;
json_out["green"] = led_green;
json_out["blue"] = led_blue;
String response;
json_out.printTo(response);
Serial.print("led state: ");
Serial.println(response);
Homie.setNodeProperty(ledNode, "color", response);
return true;
}
void DeviceLed::homieRegister() {
// TODO this doesn't work :-(
//ledNode.subscribe("on", &DeviceLed::ledOnHandler());
//ledNode.subscribe("color", &DeviceLed::ledColorHandler());
Homie.registerNode(ledNode);
}
void DeviceLed::loop() {
return;
}
#endif

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@ -1,6 +1,7 @@
#include <Homie.h> // https://github.com/marvinroger/homie-esp8266 #include <Homie.h> // https://github.com/marvinroger/homie-esp8266
#include <DHT.h> // https://github.com/adafruit/DHT-sensor-library #include <DHT.h> // https://github.com/adafruit/DHT-sensor-library
#include "DeviceLed.h"
#include "DeviceLdr.h" #include "DeviceLdr.h"
#define HAS_LDR #define HAS_LDR
@ -11,10 +12,7 @@
#define PIN_LED_RED D8 #define PIN_LED_RED D8
#define PIN_LED_GREEN D6 #define PIN_LED_GREEN D6
#define PIN_LED_BLUE D7 #define PIN_LED_BLUE D7
HomieNode ledNode("led", "rgb"); DeviceLed deviceLed(PIN_LED_RED, PIN_LED_GREEN, PIN_LED_BLUE);
int led_red = 0;
int led_green = 0;
int led_blue = 0;
// HAS_LDR // HAS_LDR
#define PIN_LDR A0 #define PIN_LDR A0
@ -37,70 +35,13 @@ void setupHandler() {
deviceLdr.setup(); deviceLdr.setup();
#endif #endif
#ifdef HAS_LED #ifdef HAS_LED
pinMode(PIN_LED_RED, OUTPUT); deviceLed.setup();
pinMode(PIN_LED_GREEN, OUTPUT);
pinMode(PIN_LED_BLUE, OUTPUT);
analogWrite(PIN_LED_RED, led_red);
analogWrite(PIN_LED_GREEN, led_green);
analogWrite(PIN_LED_BLUE, led_blue);
#endif #endif
#ifdef HAS_DHT #ifdef HAS_DHT
dht.begin(); dht.begin();
#endif #endif
} }
bool ledOnHandler(String value) {
if (value == "true") {
analogWrite(PIN_LED_RED, led_red);
analogWrite(PIN_LED_GREEN, led_green);
analogWrite(PIN_LED_BLUE, led_blue);
Homie.setNodeProperty(ledNode, "on", "true");
Serial.println("led is on");
} else if (value == "false") {
analogWrite(PIN_LED_RED, 0);
analogWrite(PIN_LED_GREEN, 0);
analogWrite(PIN_LED_BLUE, 0);
Homie.setNodeProperty(ledNode, "on", "false");
Serial.println("led is off");
} else {
return false;
}
return true;
}
bool ledColorHandler(String message) {
DynamicJsonBuffer json_inBuffer;
JsonObject& json_in = json_inBuffer.parseObject(message);
if (json_in.success()) {
if (json_in.containsKey("red")) {
led_red = json_in["red"];
analogWrite(PIN_LED_RED, led_red);
}
if (json_in.containsKey("green")) {
led_green = json_in["green"];
analogWrite(PIN_LED_GREEN, led_green);
}
if (json_in.containsKey("blue")) {
led_blue = json_in["blue"];
analogWrite(PIN_LED_BLUE, led_blue);
}
} else {
Serial.println("parsing of JSON failed");
}
DynamicJsonBuffer json_outBuffer;
JsonObject& json_out = json_outBuffer.createObject();
json_out["red"] = led_red;
json_out["green"] = led_green;
json_out["blue"] = led_blue;
String response;
json_out.printTo(response);
Serial.print("led state: ");
Serial.println(response);
Homie.setNodeProperty(ledNode, "color", response);
return true;
}
// compare float values // compare float values
bool isEqual(float a, float b, float epsilon=0.001) { bool isEqual(float a, float b, float epsilon=0.001) {
return fabs(a - b) <= epsilon * fabs(a); return fabs(a - b) <= epsilon * fabs(a);
@ -159,6 +100,9 @@ void loopHandler() {
#ifdef HAS_LDR #ifdef HAS_LDR
deviceLdr.loop(); deviceLdr.loop();
#endif #endif
#ifdef HAS_LED
deviceLed.loop();
#endif
#ifdef HAS_DHT #ifdef HAS_DHT
loopHandlerDHT(); loopHandlerDHT();
#endif #endif
@ -170,9 +114,7 @@ void setup() {
deviceLdr.homieRegister(); deviceLdr.homieRegister();
#endif #endif
#ifdef HAS_LED #ifdef HAS_LED
ledNode.subscribe("on", ledOnHandler); deviceLed.homieRegister();
ledNode.subscribe("color", ledColorHandler);
Homie.registerNode(ledNode);
#endif #endif
#ifdef HAS_DHT #ifdef HAS_DHT
Homie.registerNode(humidityNode); Homie.registerNode(humidityNode);