split C code into header- and implementation-files

This commit is contained in:
Ronald Schaten 2016-04-22 22:26:52 +02:00
parent 2970dad868
commit 50c38f4060
10 changed files with 269 additions and 264 deletions

66
things/DeviceDht.cpp Normal file
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@ -0,0 +1,66 @@
#include "DeviceDht.h"
void DeviceDht::deviceSetup() {
pinMode(pin, INPUT);
dht.begin();
}
void DeviceDht::deviceRegister() {
Homie.registerNode(humidityNode);
Homie.registerNode(temperatureNode);
Homie.registerNode(heatindexNode);
}
// compare float values
bool isEqual(float a, float b, float epsilon=0.001) {
return fabs(a - b) <= epsilon * fabs(a);
}
void DeviceDht::deviceLoop() {
if (millis() - lastSentDHT >= INTERVAL_DHT * 1000UL || lastSentDHT == 0) {
float previousHumidity = humidity;
float previousTemperature = temperature;
float previousHeatindex = heatindex;
humidity = dht.readHumidity(); // read humidity as a percent
temperature = dht.readTemperature(); // read temperature as Celsius
heatindex = dht.computeHeatIndex(temperature, humidity, false);
// check if any reads failed and exit early
if (isnan(humidity) || isnan(temperature)) {
Serial.println("Failed to read from DHT sensor!");
return;
}
if (!isEqual(humidity, previousHumidity)) {
Serial.print("humidity: ");
Serial.println(humidity);
if (!Homie.setNodeProperty(humidityNode, "value", String(humidity), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("humidity unchanged");
}
if (!isEqual(temperature, previousTemperature)) {
Serial.print("temperature: ");
Serial.println(temperature);
if (!Homie.setNodeProperty(temperatureNode, "value", String(temperature), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("temperature unchanged");
}
if (!isEqual(heatindex, previousHeatindex)) {
Serial.print("heatindex: ");
Serial.println(heatindex);
if (!Homie.setNodeProperty(heatindexNode, "value", String(heatindex), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("heatindex unchanged");
}
lastSentDHT = millis();
}
}

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@ -27,69 +27,4 @@ class DeviceDht : public Device {
HomieNode heatindexNode{"heatindex", "heatindex"}; HomieNode heatindexNode{"heatindex", "heatindex"};
}; };
void DeviceDht::deviceSetup() {
pinMode(pin, INPUT);
dht.begin();
}
void DeviceDht::deviceRegister() {
Homie.registerNode(humidityNode);
Homie.registerNode(temperatureNode);
Homie.registerNode(heatindexNode);
}
// compare float values
bool isEqual(float a, float b, float epsilon=0.001) {
return fabs(a - b) <= epsilon * fabs(a);
}
void DeviceDht::deviceLoop() {
if (millis() - lastSentDHT >= INTERVAL_DHT * 1000UL || lastSentDHT == 0) {
float previousHumidity = humidity;
float previousTemperature = temperature;
float previousHeatindex = heatindex;
humidity = dht.readHumidity(); // read humidity as a percent
temperature = dht.readTemperature(); // read temperature as Celsius
heatindex = dht.computeHeatIndex(temperature, humidity, false);
// check if any reads failed and exit early
if (isnan(humidity) || isnan(temperature)) {
Serial.println("Failed to read from DHT sensor!");
return;
}
if (!isEqual(humidity, previousHumidity)) {
Serial.print("humidity: ");
Serial.println(humidity);
if (!Homie.setNodeProperty(humidityNode, "value", String(humidity), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("humidity unchanged");
}
if (!isEqual(temperature, previousTemperature)) {
Serial.print("temperature: ");
Serial.println(temperature);
if (!Homie.setNodeProperty(temperatureNode, "value", String(temperature), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("temperature unchanged");
}
if (!isEqual(heatindex, previousHeatindex)) {
Serial.print("heatindex: ");
Serial.println(heatindex);
if (!Homie.setNodeProperty(heatindexNode, "value", String(heatindex), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("heatindex unchanged");
}
lastSentDHT = millis();
}
}
#endif #endif

23
things/DeviceIrRx.cpp Normal file
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#include "DeviceIrRx.h"
void DeviceIrRx::deviceSetup() {
// pinMode(pin_irrx, INPUT); // this is done by enableIRIn()
irrecv.enableIRIn();
pinMode(pin_power, OUTPUT);
digitalWrite(pin_power, HIGH);
}
void DeviceIrRx::deviceRegister() {
Homie.registerNode(irRxNode);
}
void DeviceIrRx::deviceLoop() {
if (irrecv.decode(&results)) {
Serial.print("IR-Rx: ");
Serial.println(results.value, HEX);
if (!Homie.setNodeProperty(irRxNode, "value", String(results.value), false)) {
Serial.println("Sending failed");
}
irrecv.resume(); // Receive the next value
}
}

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@ -22,26 +22,4 @@ class DeviceIrRx : public Device {
HomieNode irRxNode = HomieNode("irrx", "irrx"); HomieNode irRxNode = HomieNode("irrx", "irrx");
}; };
void DeviceIrRx::deviceSetup() {
// pinMode(pin_irrx, INPUT); // this is done by enableIRIn()
irrecv.enableIRIn();
pinMode(pin_power, OUTPUT);
digitalWrite(pin_power, HIGH);
}
void DeviceIrRx::deviceRegister() {
Homie.registerNode(irRxNode);
}
void DeviceIrRx::deviceLoop() {
if (irrecv.decode(&results)) {
Serial.print("IR-Rx: ");
Serial.println(results.value, HEX);
if (!Homie.setNodeProperty(irRxNode, "value", String(results.value), false)) {
Serial.println("Sending failed");
}
irrecv.resume(); // Receive the next value
}
}
#endif #endif

81
things/DeviceIrTx.cpp Normal file
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@ -0,0 +1,81 @@
#include "DeviceIrTx.h"
void DeviceIrTx::deviceSetup() {
// pinMode(pin_irtx, OUTPUT); // this is done by begin()
irsend.begin();
}
bool DeviceIrTx::irTxHandler(String message) {
DynamicJsonBuffer json_inBuffer;
JsonObject& json_in = json_inBuffer.parseObject(message);
if (json_in.success()) {
unsigned long data = 0;
int nbits = 0;
if (json_in.containsKey("data")) {
data = json_in["data"];
}
if (json_in.containsKey("nbits")) {
nbits = json_in["nbits"];
}
if (json_in.containsKey("protocol")) {
String protocol = json_in["protocol"];
protocol.toUpperCase();
Serial.print("IR-Tx: sending ");
Serial.print(data);
Serial.print(" (");
Serial.print(nbits);
Serial.print(") via ");
Serial.print(protocol);
Serial.println(" Protocol");
for (int i = 0; i < 5; i++) {
if (protocol == "NEC") {
irsend.sendNEC(data, nbits);
} else if (protocol == "SONY") {
irsend.sendSony(data, nbits);
} else if (protocol == "RC5") {
irsend.sendRC5(data, nbits);
} else if (protocol == "RC6") {
irsend.sendRC6(data, nbits);
} else if (protocol == "DISH") {
irsend.sendDISH(data, nbits);
} else if (protocol == "SHARP") {
irsend.sendSharp(data, nbits);
} else if (protocol == "PANASONIC") {
irsend.sendPanasonic(data, nbits);
/* JVC needs a repeat parameter, will be implemented if necessary
} else if (protocol == "JVC") {
int repeat = 0;
irsend.sendJVC(data, nbits, repeat);
*/
/* Sanyo and Mitsubishi aren't implemented in the library
} else if (protocol == "SANYO") {
irsend.sendSanyo(data, nbits);
} else if (protocol == "MITSUBISHI") {
irsend.sendMitsubishi(data, nbits);
*/
} else if (protocol == "SAMSUNG") {
irsend.sendSAMSUNG(data, nbits);
} else if (protocol == "LG") {
irsend.sendLG(data, nbits);
} else if (protocol == "WHYNTER") {
irsend.sendLG(data, nbits);
} else {
Serial.println("IR protocol not implemented");
}
delay(40);
}
}
} else {
Serial.println("parsing of JSON failed");
}
return true;
}
void DeviceIrTx::deviceRegister() {
irTxNode.subscribe("irtx", [this](String value) { return irTxHandler(value); });
Homie.registerNode(irTxNode);
}
void DeviceIrTx::deviceLoop() {
return;
}

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@ -20,84 +20,4 @@ class DeviceIrTx : public Device {
HomieNode irTxNode = HomieNode("irtx", "irtx"); HomieNode irTxNode = HomieNode("irtx", "irtx");
}; };
void DeviceIrTx::deviceSetup() {
// pinMode(pin_irtx, OUTPUT); // this is done by begin()
irsend.begin();
}
bool DeviceIrTx::irTxHandler(String message) {
DynamicJsonBuffer json_inBuffer;
JsonObject& json_in = json_inBuffer.parseObject(message);
if (json_in.success()) {
unsigned long data = 0;
int nbits = 0;
if (json_in.containsKey("data")) {
data = json_in["data"];
}
if (json_in.containsKey("nbits")) {
nbits = json_in["nbits"];
}
if (json_in.containsKey("protocol")) {
String protocol = json_in["protocol"];
protocol.toUpperCase();
Serial.print("IR-Tx: sending ");
Serial.print(data);
Serial.print(" (");
Serial.print(nbits);
Serial.print(") via ");
Serial.print(protocol);
Serial.println(" Protocol");
for (int i = 0; i < 5; i++) {
if (protocol == "NEC") {
irsend.sendNEC(data, nbits);
} else if (protocol == "SONY") {
irsend.sendSony(data, nbits);
} else if (protocol == "RC5") {
irsend.sendRC5(data, nbits);
} else if (protocol == "RC6") {
irsend.sendRC6(data, nbits);
} else if (protocol == "DISH") {
irsend.sendDISH(data, nbits);
} else if (protocol == "SHARP") {
irsend.sendSharp(data, nbits);
} else if (protocol == "PANASONIC") {
irsend.sendPanasonic(data, nbits);
/* JVC needs a repeat parameter, will be implemented if necessary
} else if (protocol == "JVC") {
int repeat = 0;
irsend.sendJVC(data, nbits, repeat);
*/
/* Sanyo and Mitsubishi aren't implemented in the library
} else if (protocol == "SANYO") {
irsend.sendSanyo(data, nbits);
} else if (protocol == "MITSUBISHI") {
irsend.sendMitsubishi(data, nbits);
*/
} else if (protocol == "SAMSUNG") {
irsend.sendSAMSUNG(data, nbits);
} else if (protocol == "LG") {
irsend.sendLG(data, nbits);
} else if (protocol == "WHYNTER") {
irsend.sendLG(data, nbits);
} else {
Serial.println("IR protocol not implemented");
}
delay(40);
}
}
} else {
Serial.println("parsing of JSON failed");
}
return true;
}
void DeviceIrTx::deviceRegister() {
irTxNode.subscribe("irtx", [this](String value) { return irTxHandler(value); });
Homie.registerNode(irTxNode);
}
void DeviceIrTx::deviceLoop() {
return;
}
#endif #endif

27
things/DeviceLdr.cpp Normal file
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@ -0,0 +1,27 @@
#include "DeviceLdr.h"
void DeviceLdr::deviceSetup() {
pinMode(pin, INPUT);
}
void DeviceLdr::deviceRegister() {
Homie.registerNode(ldrNode);
}
void DeviceLdr::deviceLoop() {
if (millis() - lastSentLDR >= INTERVAL_LDR * 1000UL || lastSentLDR == 0) {
int ldr_new = analogRead(pin);
if (ldr_new != ldr) {
ldr = ldr_new;
float ldr_float = map(ldr, 0, 1023, 0, 10000) / 100.0;
Serial.print("LDR: ");
Serial.println(ldr_float);
if (!Homie.setNodeProperty(ldrNode, "value", String(ldr_float), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("LDR value unchanged");
}
lastSentLDR = millis();
}
}

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@ -20,30 +20,4 @@ class DeviceLdr : public Device {
HomieNode ldrNode = HomieNode("ldr", "ldr"); HomieNode ldrNode = HomieNode("ldr", "ldr");
}; };
void DeviceLdr::deviceSetup() {
pinMode(pin, INPUT);
}
void DeviceLdr::deviceRegister() {
Homie.registerNode(ldrNode);
}
void DeviceLdr::deviceLoop() {
if (millis() - lastSentLDR >= INTERVAL_LDR * 1000UL || lastSentLDR == 0) {
int ldr_new = analogRead(pin);
if (ldr_new != ldr) {
ldr = ldr_new;
float ldr_float = map(ldr, 0, 1023, 0, 10000) / 100.0;
Serial.print("LDR: ");
Serial.println(ldr_float);
if (!Homie.setNodeProperty(ldrNode, "value", String(ldr_float), true)) {
Serial.println("Sending failed");
}
} else {
Serial.println("LDR value unchanged");
}
lastSentLDR = millis();
}
}
#endif #endif

72
things/DeviceLed.cpp Normal file
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@ -0,0 +1,72 @@
#include "DeviceLed.h"
void DeviceLed::deviceSetup() {
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::deviceRegister() {
ledNode.subscribe("on", [this](String value) { return ledOnHandler(value); });
ledNode.subscribe("color", [this](String value) { return ledColorHandler(value); });
Homie.registerNode(ledNode);
}
void DeviceLed::deviceLoop() {
return;
}

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@ -26,75 +26,4 @@ class DeviceLed : public Device {
HomieNode ledNode{"led", "rgb"}; HomieNode ledNode{"led", "rgb"};
}; };
void DeviceLed::deviceSetup() {
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::deviceRegister() {
ledNode.subscribe("on", [this](String value) { return ledOnHandler(value); });
ledNode.subscribe("color", [this](String value) { return ledColorHandler(value); });
Homie.registerNode(ledNode);
}
void DeviceLed::deviceLoop() {
return;
}
#endif #endif