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custom_ivt_reader.h
294 lines (238 loc) · 8.65 KB
/
custom_ivt_reader.h
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#include "esphome.h"
#include "esphome/core/log.h"
#define SENSOR_CNT 36
class Ivt495Twin : public PollingComponent, public UARTDevice {
Sensor *xsensor1 {nullptr}; //Framledning
Sensor *xsensor2 {nullptr}; //Ute
Sensor *xsensor3 {nullptr}; //Tappvarmvatten Topp
Sensor *xsensor4 {nullptr}; //Varmvatten Mitt
Sensor *xsensor5 {nullptr}; //Värmevatten Botten
Sensor *xsensor6 {nullptr}; //Rumstemp
Sensor *xsensor7 {nullptr}; //Hetgas
Sensor *xsensor8 {nullptr}; //Extra Acc-Tank
Sensor *xsensor9 {nullptr}; //Tryckvakt
Sensor *xsensor10 {nullptr}; //Högtryck
Sensor *xsensor11 {nullptr}; //Lågtryck
Sensor *xsensor12 {nullptr}; //Semester aktiv?
Sensor *xsensor13 {nullptr}; //Kompressor aktiv
Sensor *xsensor14 {nullptr}; //SV1 Öppna
Sensor *xsensor15 {nullptr}; //SV1 Stäng
Sensor *xsensor16 {nullptr}; //P1 Rad
Sensor *xsensor17 {nullptr}; //Fläkt
Sensor *xsensor18 {nullptr}; //Larm aktiv
Sensor *xsensor19 {nullptr}; //Extern P2
Sensor *xsensor20 {nullptr}; //LLT GT1
Sensor *xsensor21 {nullptr}; //LL GT1
Sensor *xsensor22 {nullptr}; //BV GT1
Sensor *xsensor23 {nullptr}; //UL GT1
Sensor *xsensor24 {nullptr}; //LL GT3:2
Sensor *xsensor25 {nullptr}; //ULT GT3:2
Sensor *xsensor26 {nullptr}; //UL GT3:2
Sensor *xsensor27 {nullptr}; //LL GT3:3
Sensor *xsensor28 {nullptr}; //BV GT3:3
Sensor *xsensor29 {nullptr}; //SV3 BV Förskj
Sensor *xsensor30 {nullptr}; //Effekt ink vit VV behov
Sensor *xsensor31 {nullptr}; //Tillskotstimer VV behov
Sensor *xsensor32 {nullptr}; //Tappv prio
Sensor *xsensor33 {nullptr}; //Tillskott i %/10
Sensor *xsensor34 {nullptr}; //Tillskott RAD
Sensor *xsensor35 {nullptr}; //Tillskott Tillägg
Sensor *xsensor36 {nullptr}; //Default SV2 Open
String inputString;
boolean stringComplete = false;
char inChar;
int counter;
int commaPosition;
float ivt[50];
int recieved=0;
/*
#define LOG_IVT(prefix, type, obj) \
if ((obj) != nullptr) { \
ESP_LOGCONFIG(TAG, "%s%s '%s'", prefix, LOG_STR_LITERAL(type), (obj)->get_name().c_str()); \
}
*/
public:
Ivt495Twin(UARTComponent *parent, Sensor *sensor1, Sensor *sensor2, Sensor *sensor3, Sensor *sensor4, Sensor *sensor5, Sensor *sensor6, Sensor *sensor7, Sensor *sensor8, Sensor *sensor9, Sensor *sensor10, Sensor *sensor11, Sensor *sensor12, Sensor *sensor13, Sensor *sensor14, Sensor *sensor15, Sensor *sensor16, Sensor *sensor17, Sensor *sensor18, Sensor *sensor19, Sensor *sensor20, Sensor *sensor21, Sensor *sensor22, Sensor *sensor23, Sensor *sensor24, Sensor *sensor25, Sensor *sensor26, Sensor *sensor27, Sensor *sensor28, Sensor *sensor29, Sensor *sensor30, Sensor *sensor31, Sensor *sensor32, Sensor *sensor33, Sensor *sensor34, Sensor *sensor35, Sensor *sensor36) : UARTDevice(parent) , xsensor1(sensor1) , xsensor2(sensor2), xsensor3(sensor3), xsensor4(sensor4) ,xsensor5(sensor5), xsensor6(sensor6), xsensor7(sensor7), xsensor8(sensor8), xsensor9(sensor9), xsensor10(sensor10), xsensor11(sensor11), xsensor12(sensor12), xsensor13(sensor13), xsensor14(sensor14) ,xsensor15(sensor15), xsensor16(sensor16), xsensor17(sensor17), xsensor18(sensor18), xsensor19(sensor19), xsensor20(sensor20), xsensor21(sensor21), xsensor22(sensor22), xsensor23(sensor23), xsensor24(sensor24) ,xsensor25(sensor25), xsensor26(sensor26), xsensor27(sensor27), xsensor28(sensor28), xsensor29(sensor29), xsensor30(sensor30), xsensor31(sensor31), xsensor32(sensor32), xsensor33(sensor33), xsensor34(sensor34) ,xsensor35(sensor35), xsensor36(sensor36){}
Ivt495Twin(UARTComponent *parent);
void setup() override {
this->set_update_interval(60000);
}
void update() override {
}
void loop() override {
recieved=0;
if(available() > 1){
ESP_LOGD("TAG", "'%s' - Setting", "Loop()");
delay(100);
fetchSerial();
splitString();
publishState();
}
delay(100);
}
void fetchSerial (){
ESP_LOGD("TAG", "Fetchserial", "Fetch");
while(available()>0)
{
inChar = read();
if(inChar != 32) {
inputString += inChar;
/* ESP_LOGD("TAG", "'%c',", inChar); */
recieved++;
}
delay(2);
}
inChar = '0';
/* Serial.println(inputString); */
stringComplete = true;
/* ESP_LOGD("TAG", "'%d'# - data read", recieved); */
}
void splitString ()
{
ESP_LOGD("TAG", "Splitstring", "Split");
commaPosition = inputString.indexOf(';');
while(commaPosition >= 0)
{
commaPosition = inputString.indexOf(';');
if(commaPosition != -1)
{
ivt[counter] = stringToFloat(inputString.substring(0,commaPosition));
inputString = inputString.substring(commaPosition+1, inputString.length());
}
else
{
if(inputString.length() > 0){
ivt[counter] = stringToFloat(inputString.substring(0,commaPosition));
}
}
while(ivt[counter] > (float)1200){
ivt[counter] = ivt[counter] /(float)10;
}
counter++;
}
counter = 0;
inputString = "";
commaPosition = 0;
}
float stringToFloat(String input){
String stringTemp = input;
char stfarray[stringTemp.length() + 1];
stringTemp.toCharArray(stfarray, sizeof(stfarray));
float stf = atof(stfarray);
stringTemp = "";
memset(stfarray, 0, sizeof stfarray);
return stf;
}
void publishState(){
ESP_LOGD("TAG", "Publish state", "Publish");
//Framledning
if (xsensor1 != nullptr)
xsensor1->publish_state((ivt[1] / 10 ));
//Ute
if (xsensor2 != nullptr)
xsensor2->publish_state((ivt[2]/10));
//Tappvarmvatten Topp
if (xsensor3 != nullptr)
xsensor3->publish_state((ivt[3]/10));
//Varmvatten Mitt
if (xsensor4 != nullptr)
xsensor4->publish_state((ivt[4]/10));
//Värmevatten Botten
if (xsensor5 != nullptr)
xsensor5->publish_state((ivt[5]/10));
//Rumstemp
if (xsensor6 != nullptr)
xsensor6->publish_state((ivt[6]/10));
//Hetgas
if (xsensor7 != nullptr)
xsensor7->publish_state((ivt[7]/10));
//Extra Acc-Tank
if (xsensor8 != nullptr)
xsensor8->publish_state((ivt[8]/10));
//Tryckvakt
if (xsensor9 != nullptr)
xsensor9->publish_state((bool)(int)ivt[9]);
//Högtryck
if (xsensor10 != nullptr)
xsensor10->publish_state((bool)(int)ivt[10]);
//Lågtryck
if (xsensor11 != nullptr)
xsensor11->publish_state((bool)(int)ivt[11]);
//Semester aktiv?
if (xsensor12 != nullptr)
xsensor12->publish_state((bool)(int)ivt[12]);
//Kompressor aktiv
if (xsensor13 != nullptr)
xsensor13->publish_state((bool)(int)ivt[13]);
//SV1 Öppna
if (xsensor14 != nullptr)
xsensor14->publish_state((bool)(int)ivt[14]);
//SV1 Stäng
if (xsensor15 != nullptr)
xsensor15->publish_state((bool)(int)ivt[15]);
//P1 Rad
if (xsensor16 != nullptr)
xsensor16->publish_state((int)ivt[16]);
//Fläkt
if (xsensor17 != nullptr)
xsensor17->publish_state((bool)(int)ivt[17]);
//Larm aktiv
if (xsensor18 != nullptr)
xsensor18->publish_state((bool)(int)ivt[18]);
//Extern P2
if (xsensor19 != nullptr)
xsensor19->publish_state((int)ivt[19]);
//LLT GT1
if (xsensor20 != nullptr)
xsensor20->publish_state((ivt[20]/10));
//LL GT1
if (xsensor21 != nullptr)
xsensor21->publish_state((ivt[21]/10));
//BV GT1
if (xsensor22 != nullptr)
xsensor22->publish_state((ivt[22]/10));
//UL GT1
if (xsensor23 != nullptr)
xsensor23->publish_state((ivt[23]/10));
//LL GT3:2
if (xsensor24 != nullptr)
xsensor24->publish_state((ivt[24]/10));
//ULT GT3:2
if (xsensor25 != nullptr)
xsensor25->publish_state((ivt[25]/10));
//UL GT3:2
if (xsensor26 != nullptr)
xsensor26->publish_state((ivt[26]/10));
//LL GT3:3
if (xsensor27 != nullptr)
xsensor27->publish_state((ivt[27]/10));
//BV GT3:3
if (xsensor28 != nullptr)
xsensor28->publish_state((ivt[28]/10));
//SV3 BV Förskj
if (xsensor29 != nullptr)
xsensor29->publish_state((ivt[29]/10));
//Effekt ink vit VV behov
if (xsensor30 != nullptr)
xsensor30->publish_state((ivt[30]/10));
//Tillskotstimer VV behov
if (xsensor31 != nullptr)
xsensor31->publish_state((ivt[31]/10));
//Tappv prio
if (xsensor32 != nullptr)
xsensor32->publish_state((bool)(int)ivt[32]);
//Tillskott i %/10
if (xsensor33 != nullptr)
xsensor33->publish_state((int)ivt[33]);
//Tillskott RAD
if (xsensor34 != nullptr)
xsensor34->publish_state((int)ivt[34]);
//Tillskott Tillägg
if (xsensor35 != nullptr)
xsensor35->publish_state((ivt[35]/10));
ESP_LOGD("TAG", "lasttrain", "last");
//Default SV2 Open
if (xsensor36 != nullptr)
xsensor36->publish_state((bool)(int)ivt[36]);
}
};