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Update smart from Features
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Rémi Heredero 2023-06-09 12:48:08 +02:00 committed by GitHub
commit fd293b15e1
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15 changed files with 246 additions and 103 deletions

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@ -1,3 +1,5 @@
URL = https://influx.sdi.hevs.ch DB.URL = https://influx.sdi.hevs.ch
ORG = SIn15 DB.ORG = SIn15
BUCKET = SIn15 DB.BUCKET = SIn15
WEB.URL = localhost
WEB.PORT = 8888

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@ -1,13 +1,18 @@
package ch.hevs.isi; package ch.hevs.isi;
import ch.hevs.isi.core.BooleanDataPoint;
import ch.hevs.isi.core.FloatDataPoint;
import ch.hevs.isi.db.DatabaseConnector; import ch.hevs.isi.db.DatabaseConnector;
import ch.hevs.isi.field.FieldConnector;
import ch.hevs.isi.utils.Utility; import ch.hevs.isi.utils.Utility;
import ch.hevs.isi.web.WebConnector;
import java.io.FileInputStream;
import java.io.InputStream;
import java.util.Properties;
public class MinecraftController { public class MinecraftController {
public static boolean ERASE_PREVIOUS_DATA_INB_DB = false; public static boolean ERASE_PREVIOUS_DATA_INB_DB = false;
private static final Properties properties = new Properties(); // Properties of the config.properties file
public static void usage() { public static void usage() {
System.out.println(); System.out.println();
@ -75,21 +80,36 @@ public class MinecraftController {
// ------------------------------------ /DO NOT CHANGE THE FOLLOWING LINES ------------------------------------- // ------------------------------------ /DO NOT CHANGE THE FOLLOWING LINES -------------------------------------
// Start coding here ... // Read the config.properties file
try (InputStream input = new FileInputStream("src/config.properties")) {
properties.load(input);
} catch (Exception e) {
e.printStackTrace();
}
// Initialize the database connector // Initialize the database connector
if((dbProtocol != null) && (dbHostName != null)){
DatabaseConnector.url = dbProtocol+ "://" + dbHostName;
DatabaseConnector.getMySelf().initialize(dbProtocol+ "://" + dbHostName);
}
if(dbName != null){ if(dbName != null){
DatabaseConnector.org = dbName; DatabaseConnector.org = dbName;
} }
if(dbUserName != null){ if(dbUserName != null){
DatabaseConnector.bucket = dbUserName; DatabaseConnector.bucket = dbUserName;
} }
if((dbProtocol != null) && (dbHostName != null)){
DatabaseConnector.url = dbProtocol+ "://" + dbHostName;
Utility.pDebug("Database URL: " + DatabaseConnector.url);
Utility.pDebug("Config: " + properties.getProperty("DB.URL"));
DatabaseConnector.getMySelf().initialize(DatabaseConnector.url);
}
// Initialize the Modbus TCP connector // Initialize the Modbus TCP connector
FieldConnector.getMySelf().initialize(modbusTcpHost, modbusTcpPort,"src/main/resources/ModbusMap.csv");
// Initialize the web server
String host = properties.getProperty("WEB.URL");
int port = Integer.parseInt(properties.getProperty("WEB.PORT"));
WebConnector.getMySelf().initialize(host, port);
} }

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@ -1,27 +1,42 @@
package ch.hevs.isi.core; package ch.hevs.isi.core;
import ch.hevs.isi.core.DataPointListener;
import ch.hevs.isi.db.DatabaseConnector;
import ch.hevs.isi.field.FieldConnector;
import ch.hevs.isi.web.WebConnector;
public class BooleanDataPoint extends DataPoint{ public class BooleanDataPoint extends DataPoint{
private boolean value; private boolean value;
/**
* Create a new DataPoint with a label and if is an Output or not
* @param label the label of this DataPoint
* @param isOutput true if this is an Output, false if it's an Input
*/
public BooleanDataPoint(String label, boolean isOutput) { public BooleanDataPoint(String label, boolean isOutput) {
super(label, isOutput); super(label, isOutput);
} }
/**
* Set the value of this DataPoint and create it if it doesn't exist via the update method
* @param value the value to set
*/
public void setValue(boolean value){ public void setValue(boolean value){
this.value = value; this.value = value;
if (getDataPointFromLabel(this.getLabel()) == null){ if (getDataPointOnListFromLabel(this.getLabel()) == null){
this.update(true); this.update(true);
} else { } else {
this.update(false); this.update(false);
} }
} }
/**
* Get the value of this DataPoint
* @return the value of this DataPoint
*/
public boolean getValue(){ public boolean getValue(){
return this.value; return this.value;
} }
/**
* Convert this DataPoint to a string
* @return the string representation of this DataPoint
*/
public String toString(){ public String toString(){
String s; String s;
s = this.getLabel(); s = this.getLabel();

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@ -1,16 +1,35 @@
package ch.hevs.isi.core; package ch.hevs.isi.core;
import ch.hevs.isi.db.DatabaseConnector;
import ch.hevs.isi.field.FieldConnector;
import ch.hevs.isi.web.WebConnector;
import java.util.HashMap; import java.util.HashMap;
import java.util.Map; import java.util.Map;
public abstract class DataPoint{ public abstract class DataPoint{
private static Map<String, DataPoint> dataPointMap = new HashMap<>();
private String label;
private boolean isOutput; public static Map<String, DataPoint> dataPointMap = new HashMap<>(); // Map of all DataPoints
private final String label; // Label of this DataPoint
private final boolean isOutput; // True if this DataPoint is an output, false if it's an input
/**
* Constructor of DataPoint
* @param label label of this DataPoint
* @param isOutput true if this DataPoint is an output, false if it's an input
*/
protected DataPoint(String label, boolean isOutput){ protected DataPoint(String label, boolean isOutput){
this.label = label; this.label = label;
this.isOutput = isOutput; this.isOutput = isOutput;
} }
/**
* Update the value of this DataPoint and notify every connector
* If this is a new value (doesn't exist), add it to the dataPointMap
* @param isNewValue true if this is a new value, false if it's an update
*/
protected void update(boolean isNewValue){ protected void update(boolean isNewValue){
if(isNewValue){ if(isNewValue){
@ -22,7 +41,13 @@ public abstract class DataPoint{
// Update every connector // Update every connector
DataPointListener.listeners.forEach(listener -> listener.onNewValue(this)); DataPointListener.listeners.forEach(listener -> listener.onNewValue(this));
} }
public static DataPoint getDataPointFromLabel(String label){
/**
* Get the DataPoint from the label
* @param label label of the DataPoint
* @return the DataPoint if it exists, null otherwise
*/
public static DataPoint getDataPointOnListFromLabel(String label){
if( !dataPointMap.containsKey(label) ){ if( !dataPointMap.containsKey(label) ){
return null; return null;
} else { } else {

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@ -1,27 +1,42 @@
package ch.hevs.isi.core; package ch.hevs.isi.core;
import ch.hevs.isi.db.DatabaseConnector;
import ch.hevs.isi.field.FieldConnector;
import ch.hevs.isi.web.WebConnector;
public class FloatDataPoint extends DataPoint{ public class FloatDataPoint extends DataPoint{
private float value; private float value;
/**
* Create a new DataPoint with a label and if is an Output or not
* @param label the label of this DataPoint
* @param isOutput true if this is an Output, false if it's an Input
*/
public FloatDataPoint(String label, boolean isOutput) { public FloatDataPoint(String label, boolean isOutput) {
super(label, isOutput); super(label, isOutput);
} }
/**
* Set the value of this DataPoint and create it if it doesn't exist via the update method
* @param value the value to set
*/
public void setValue(float value){ public void setValue(float value){
this.value = value; this.value = value;
if (getDataPointFromLabel(this.getLabel()) == null){ if (getDataPointOnListFromLabel(this.getLabel()) == null){
this.update(true); this.update(true);
} else { } else {
this.update(false); this.update(false);
} }
} }
/**
* Get the value of this DataPoint
* @return the value of this DataPoint
*/
public float getValue(){ public float getValue(){
return this.value; return this.value;
} }
/**
* Convert this DataPoint to a string
* @return the string representation of this DataPoint
*/
public String toString(){ public String toString(){
String s; String s;
s = this.getLabel(); s = this.getLabel();

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@ -7,20 +7,19 @@ import ch.hevs.isi.core.DataPointListener;
import ch.hevs.isi.core.FloatDataPoint; import ch.hevs.isi.core.FloatDataPoint;
import ch.hevs.isi.utils.Utility; import ch.hevs.isi.utils.Utility;
import java.io.FileInputStream;
import java.io.IOException; import java.io.IOException;
import java.io.InputStream; import java.io.InputStream;
import java.io.OutputStreamWriter; import java.io.OutputStreamWriter;
import java.net.HttpURLConnection; import java.net.HttpURLConnection;
import java.net.MalformedURLException; import java.net.MalformedURLException;
import java.net.ProtocolException;
import java.net.URL; import java.net.URL;
import java.nio.file.Files;
import java.nio.file.Paths;
import java.util.Properties; import java.util.Properties;
public class DatabaseConnector implements DataPointListener { public class DatabaseConnector implements DataPointListener {
private final Properties properties = new Properties(); // Properties of the config.properties file private final Properties properties = new Properties(); // Properties of the config.properties file
private String fullURL = null; // Full URL of the InfluxDB server
private URL urlForWrite = null; // URL of the InfluxDB server private URL urlForWrite = null; // URL of the InfluxDB server
private HttpURLConnection con = null; // Connection to the InfluxDB server private HttpURLConnection con = null; // Connection to the InfluxDB server
private boolean initialized = false; // Boolean to know if the database connector is initialized private boolean initialized = false; // Boolean to know if the database connector is initialized
@ -40,7 +39,7 @@ public class DatabaseConnector implements DataPointListener {
*/ */
private DatabaseConnector (){ private DatabaseConnector (){
// Read the config.properties file // Read the config.properties file
try (InputStream input = new FileInputStream("src/config.properties")) { try (InputStream input = Files.newInputStream(Paths.get("src/config.properties"))) {
properties.load(input); properties.load(input);
} catch (Exception e) { } catch (Exception e) {
e.printStackTrace(); e.printStackTrace();
@ -48,13 +47,13 @@ public class DatabaseConnector implements DataPointListener {
// Get the URL, the organization and the bucket from the config.properties file if their are null // Get the URL, the organization and the bucket from the config.properties file if their are null
if (url == null){ if (url == null){
url = properties.getProperty("URL"); url = properties.getProperty("DB.URL");
} }
if (org == null){ if (org == null){
org = properties.getProperty("ORG"); org = properties.getProperty("DB.ORG");
} }
if (bucket == null){ if (bucket == null){
bucket = properties.getProperty("BUCKET"); bucket = properties.getProperty("DB.BUCKET");
} }
// Subscribe to the update of DataPoints // Subscribe to the update of DataPoints
@ -77,10 +76,12 @@ public class DatabaseConnector implements DataPointListener {
* @param url URL of the database. If null take the URL from the config.properties file * @param url URL of the database. If null take the URL from the config.properties file
*/ */
public void initialize(String url){ public void initialize(String url){
// Full URL of the InfluxDB server
String fullURL = null;
try{ try{
if(urlForWrite == null){ if(urlForWrite == null){
if(url == null){ if(url == null){
url = properties.getProperty("URL"); url = properties.getProperty("DB.URL");
} }
fullURL = url + "/api/v2/write?org=" + org + "&bucket=" + bucket; fullURL = url + "/api/v2/write?org=" + org + "&bucket=" + bucket;
Utility.pDebug("URL: " + fullURL); Utility.pDebug("URL: " + fullURL);
@ -106,10 +107,6 @@ public class DatabaseConnector implements DataPointListener {
con.setRequestProperty("Content-Type", "text/plain"); con.setRequestProperty("Content-Type", "text/plain");
con.setRequestProperty("Accept", "application/json"); con.setRequestProperty("Accept", "application/json");
con.setDoOutput(true); con.setDoOutput(true);
} catch (MalformedURLException e) {
throw new RuntimeException(e);
} catch (ProtocolException e) {
throw new RuntimeException(e);
} catch (IOException e) { } catch (IOException e) {
throw new RuntimeException(e); throw new RuntimeException(e);
} }
@ -122,7 +119,7 @@ public class DatabaseConnector implements DataPointListener {
data += "}"; data += "}";
Utility.pDebug(data); Utility.pDebug(data);
sendDataToDatabase(data); sendDataToDatabase(data);
fullURL=null; // Reset the full URL fullURL =null; // Reset the full URL
} }
} }
@ -181,7 +178,7 @@ public class DatabaseConnector implements DataPointListener {
*/ */
@Override @Override
public void onNewValue(DataPoint dp) { public void onNewValue(DataPoint dp) {
if(dp.getLabel().equals("CLOAK_FLOAT")) { if(dp.getLabel().equals("CLOCK_FLOAT")) {
FloatDataPoint fdp = (FloatDataPoint) dp; FloatDataPoint fdp = (FloatDataPoint) dp;
_timeManager.setTimestamp(fdp.getValue()); _timeManager.setTimestamp(fdp.getValue());
_timestamp = _timeManager.getNanosForDB(); _timestamp = _timeManager.getNanosForDB();

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@ -7,18 +7,29 @@ public class BooleanRegister extends ModbusRegister{
private boolean value; private boolean value;
private BooleanDataPoint bdp; private BooleanDataPoint bdp;
/**
* public constructor of the booleanRegister
*
* @param label label of the datapoint
* @param isOutput true if it is an output datapoint
* @param address modbus address of the datapoint
*/
public BooleanRegister(String label, boolean isOutput, int address){ public BooleanRegister(String label, boolean isOutput, int address){
this.bdp = new BooleanDataPoint(label, isOutput); this.bdp = new BooleanDataPoint(label, isOutput); //create an empty datapoint for the NullPointerException
value = bdp.getValue(); updateMapOfRegisters(label, address); //add the address to the map
updateMapOfRegisters(bdp, address);
} }
@Override @Override
public void read() { public void read() {
bdp.setValue(ModbusAccessor.getMySelf().readBoolean(this.getAddress())); if(bdp.isOutput()){
return; //if it is an output datapoint, it is not read
}
bdp.setValue(ModbusAccessor.getMySelf().readBoolean(this.getAddress())); //read the value
} }
@Override @Override
public void write() { public void write(DataPoint dp) {
ModbusAccessor.getMySelf().writeBoolean(this.getAddress(), bdp.getValue()); bdp = (BooleanDataPoint) dp; //make the empty datapoint to the desired datapoint, which is to be written on the address
value = bdp.getValue(); //store the value of the datapoint
ModbusAccessor.getMySelf().writeBoolean(this.getAddress(),bdp.getValue()); //write the desired value on the modbus address
} }
} }

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@ -2,6 +2,7 @@ package ch.hevs.isi.field;
import ch.hevs.isi.core.DataPoint; import ch.hevs.isi.core.DataPoint;
import ch.hevs.isi.core.DataPointListener; import ch.hevs.isi.core.DataPointListener;
import ch.hevs.isi.core.FloatDataPoint;
import java.io.BufferedReader; import java.io.BufferedReader;
import java.io.FileNotFoundException; import java.io.FileNotFoundException;
@ -11,9 +12,13 @@ import java.util.Timer;
public class FieldConnector implements DataPointListener { public class FieldConnector implements DataPointListener {
private static FieldConnector mySelf = null; private static FieldConnector mySelf = null;
private FieldConnector(){ private FieldConnector(){
initialize("LocalHost",1502, "src/main/resources/ModbusMap.csv");
// Subscribe to the update of DataPoints // Subscribe to the update of DataPoints
DataPointListener.subscribeUpdate(this); DataPointListener.subscribeUpdate(this);
} }
@ -44,19 +49,20 @@ public class FieldConnector implements DataPointListener {
String[] splitLine = line.split(";"); // split line between ";" String[] splitLine = line.split(";"); // split line between ";"
String label = splitLine[0]; // first split is the label of the register String label = splitLine[0]; // first split is the label of the register
boolean isOutput = splitLine[3].equals("N"); // third split declares if it is an output boolean isOutput = splitLine[3].equals("Y"); // third split declares if it is an output
int address = new Integer((splitLine[4])); // fourth split is the address of the register int address = new Integer((splitLine[4])); // fourth split is the address of the register
float range = new Float(splitLine[5]); // if it is a floatDatapoint, the fifth split is the range of the data int range = new Integer(splitLine[5]); // if it is a floatDatapoint, the fifth split is the range of the data
float offset = new Float(splitLine[6]); // if it is a floatDatapoint, the sixth split is the offset of the data int offset = new Integer(splitLine[6]); // if it is a floatDatapoint, the sixth split is the offset of the data
/*
// create a float or a boolean register // create a float or a boolean register and put it in the map of registers
if (splitLine[1].equals("B")){ if (splitLine[1].equals("B")){
BooleanRegister b = new BooleanRegister(label, isOutput, address); BooleanRegister b = new BooleanRegister(label, isOutput, address);
b.updateMapOfRegisters(label, address); //save the register in map, the key is the label of the datapoint
} else if(splitLine[1].equals("F")){ } else if(splitLine[1].equals("F")){
FloatRegister f = new FloatRegister(label, isOutput, address, range, offset); FloatRegister f = new FloatRegister(label, isOutput, address, range, offset);
f.updateMapOfRegisters(label, address); //save the register in map, the key is the label of the datapoint
} }
*/
} }
} }
catch(FileNotFoundException e){ catch(FileNotFoundException e){
@ -77,9 +83,9 @@ public class FieldConnector implements DataPointListener {
*/ */
public void initialize(String host, int port, String pathToFile){ public void initialize(String host, int port, String pathToFile){
ModbusAccessor.getMySelf().connect(host,port); //connect with Modbus ModbusAccessor.getMySelf().connect(host,port); //connect to the modbus server
createRegister(pathToFile); //read the csv file of the modbus registers createRegister(pathToFile); //create the all needed modbus registers and save them in a map
startPeriodicalPolling(); //start periodical reading of the float values startPeriodicalPolling(); //start periodical reading of the values
} }
private void pushToField(String label, String value){ private void pushToField(String label, String value){
@ -87,9 +93,20 @@ public class FieldConnector implements DataPointListener {
} }
@Override @Override
public void onNewValue(DataPoint dp) { public void onNewValue(DataPoint dp) {
ModbusRegister mR = ModbusRegister.getRegisterFromDatapoint(dp); ModbusRegister mR = ModbusRegister.getRegisterFromDatapoint(dp); //search the corresponding register to the datapoint
mR.write(); if(dp.isOutput()){ //write only on the datapoints, which are outputs
pushToField(dp.getLabel(),dp.toString()); if(dp.getLabel().equals("REMOTE_SOLAR_SW") //write only boolean outputs
||dp.getLabel().equals("REMOTE_WIND_SW")
||dp.getLabel().equals("SOLAR_CONNECT_ST")
||dp.getLabel().equals("WIND_CONNECT_ST")){
BooleanRegister br = (BooleanRegister) ModbusRegister.getRegisterFromDatapoint(dp); //create a booleanregister, because they are only boolean datapoints
br.write(dp); //write with the correct dp value
}else{ //write only float outputs
FloatRegister fr = (FloatRegister) ModbusRegister.getRegisterFromDatapoint(dp); //create a floatregister, because they are only float datapoints
fr.write(dp); //write with the correct dp value
}
pushToField(dp.getLabel(),dp.toString());
}
} }
/** /**
@ -97,9 +114,9 @@ public class FieldConnector implements DataPointListener {
* in our case it is the reading of the modbus registers * in our case it is the reading of the modbus registers
*/ */
public void startPeriodicalPolling(){ public void startPeriodicalPolling(){
Timer pollTimer = new Timer(); Timer pollTimer = new Timer(); //create a new timer,
PollTask pollTask = new PollTask(); PollTask pollTask = new PollTask(); //create a new task to do every period.
pollTimer.scheduleAtFixedRate(pollTask,0,100); //do the run-function of the polltask every period
pollTimer.scheduleAtFixedRate(pollTask,0,2000);
} }
} }

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@ -8,19 +8,40 @@ import java.util.HashMap;
public class FloatRegister extends ModbusRegister{ public class FloatRegister extends ModbusRegister{
private Float value; private Float value;
private FloatDataPoint fdp; private FloatDataPoint fdp;
public FloatRegister(String label, boolean isOutPut, int address, float range, float offset) { private int range;
this.fdp = new FloatDataPoint(label, isOutPut); private int offset;
value = fdp.getValue();
updateMapOfRegisters(fdp,address); /**
* public constructor of the Float Register
*
* @param label label of the datapoint
* @param isOutPut true if it is an output datapoint
* @param address modbus address of the datapoint
* @param range range of the datapoint value
* @param offset offset of the datapoint value
*/
public FloatRegister(String label, boolean isOutPut, int address, int range, int offset) {
this.fdp = new FloatDataPoint(label, isOutPut); //create an empty datapoint for the NullPointerException
updateMapOfRegisters(label,address); //add the address to the map
this.range = range;
this.offset = offset;
} }
@Override @Override
public void read() { public void read() {
fdp.setValue(ModbusAccessor.getMySelf().readFloat(this.getAddress())); if(fdp.isOutput()){
return; //if it is an output datapoint, it is not read
}
Float value = ModbusAccessor.getMySelf().readFloat(this.getAddress()); //read the value
value = value * range;
value = value + offset;
fdp.setValue(value);
} }
@Override @Override
public void write() { public void write(DataPoint dp) {
ModbusAccessor.getMySelf().writeFloat(this.getAddress(), fdp.getValue()); fdp = (FloatDataPoint) dp; //make the empty datapoint to the desired datapoint, which is to be written on the address
value = fdp.getValue(); //store the value of the datapoint
ModbusAccessor.getMySelf().writeFloat(this.getAddress(), fdp.getValue()); //write the desired value on the modbus address
} }
} }

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@ -7,7 +7,6 @@ import java.util.HashMap;
public abstract class ModbusRegister { public abstract class ModbusRegister {
private int address; private int address;
/** /**
* get the address of the modbus register * get the address of the modbus register
* @return address of the modbus register * @return address of the modbus register
@ -15,29 +14,35 @@ public abstract class ModbusRegister {
public int getAddress() { public int getAddress() {
return address; return address;
} }
private final static HashMap<DataPoint, ModbusRegister> mapOfRegisters = new HashMap<>(); private final static HashMap<String, ModbusRegister> mapOfRegisters = new HashMap<>();
/** /**
* get the modbus register from the desired datapoint * get the modbus register from the desired datapoint
* @param dp the desired datapoint * @param dp the desired datapoint
* @return modbus register * @return modbus adress of the datapoint
*/ */
public static ModbusRegister getRegisterFromDatapoint(DataPoint dp){ public static ModbusRegister getRegisterFromDatapoint(DataPoint dp){
return mapOfRegisters.get(dp); return mapOfRegisters.get(dp.getLabel()); //search the modbus address of the datapoint-label
} }
public void updateMapOfRegisters(DataPoint dp, int address){
/**
* add an register to the map of the modbus addresses
* @param label label of the datapoint
* @param address modbus address of the datapoint
*/
public void updateMapOfRegisters(String label, int address){
this.address = address; this.address = address;
mapOfRegisters.put(dp,this); mapOfRegisters.put(label,this); //add an address to the map with the corresponding datapoint-label
} }
/** /**
* read periodically each modbus register * read periodically each modbus register
*/ */
public static void poll(){ public static void poll(){
for (ModbusRegister mr : mapOfRegisters.values()){ for (ModbusRegister mr : mapOfRegisters.values()){ //read through all the values (modbus addresses) of the map
mr.read(); //read all values (registers) of the map mr.read(); //read each datapoint, which address is stored in the map
} }
} }
public abstract void read(); //abstract prototype of the method read public abstract void read(); //abstract prototype of the method read
public abstract void write(); //abstract prototype of the method read public abstract void write(DataPoint dp); //abstract prototype of the method read
} }

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@ -1,5 +1,7 @@
package ch.hevs.isi.field; package ch.hevs.isi.field;
import ch.hevs.isi.core.DataPoint;
import java.util.TimerTask; import java.util.TimerTask;
public class PollTask extends TimerTask { public class PollTask extends TimerTask {

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@ -0,0 +1,27 @@
Label;Type [FLOAT|Boolean];Input;Output;Address;Range;Offset
GRID_U_FLOAT;F;Y;N;89;1000;0
BATT_P_FLOAT;F;Y;N;57;6000;-3000
BATT_CHRG_FLOAT;F;Y;N;49;1;0
SOLAR_P_FLOAT;F;Y;N;61;1500;0
WIND_P_FLOAT;F;Y;N;53;1000;0
COAL_P_FLOAT;F;Y;N;81;600;0
COAL_AMOUNT;F;Y;N;65;1;0
HOME_P_FLOAT;F;Y;N;101;1000;0
PUBLIC_P_FLOAT;F;Y;N;97;500;0
FACTORY_P_FLOAT;F;Y;N;105;2000;0
BUNKER_P_FLOAT;F;Y;N;93;500;0
WIND_FLOAT;F;Y;N;301;1;0
WEATHER_FLOAT;F;Y;N;305;1;0
WEATHER_FORECAST_FLOAT;F;Y;N;309;1;0
WEATHER_COUNTDOWN_FLOAT;F;Y;N;313;600;0
CLOCK_FLOAT;F;Y;N;317;1;0
REMOTE_COAL_SP;F;Y;Y;209;1;0
REMOTE_FACTORY_SP;F;Y;Y;205;1;0
REMOTE_SOLAR_SW;B;Y;Y;401;1;0
REMOTE_WIND_SW;B;Y;Y;405;1;0
FACTORY_ENERGY;F;Y;N;341;3600000;0
SCORE;F;Y;N;345;3600000;0
COAL_ST;F;Y;N;601;1;0
FACTORY_ST;F;Y;N;605;1;0
SOLAR_CONNECT_ST;B;Y;N;609;1;0
WIND_CONNECT_ST;B;Y;N;613;1;0
1 Label Type [FLOAT|Boolean] Input Output Address Range Offset
2 GRID_U_FLOAT F Y N 89 1000 0
3 BATT_P_FLOAT F Y N 57 6000 -3000
4 BATT_CHRG_FLOAT F Y N 49 1 0
5 SOLAR_P_FLOAT F Y N 61 1500 0
6 WIND_P_FLOAT F Y N 53 1000 0
7 COAL_P_FLOAT F Y N 81 600 0
8 COAL_AMOUNT F Y N 65 1 0
9 HOME_P_FLOAT F Y N 101 1000 0
10 PUBLIC_P_FLOAT F Y N 97 500 0
11 FACTORY_P_FLOAT F Y N 105 2000 0
12 BUNKER_P_FLOAT F Y N 93 500 0
13 WIND_FLOAT F Y N 301 1 0
14 WEATHER_FLOAT F Y N 305 1 0
15 WEATHER_FORECAST_FLOAT F Y N 309 1 0
16 WEATHER_COUNTDOWN_FLOAT F Y N 313 600 0
17 CLOCK_FLOAT F Y N 317 1 0
18 REMOTE_COAL_SP F Y Y 209 1 0
19 REMOTE_FACTORY_SP F Y Y 205 1 0
20 REMOTE_SOLAR_SW B Y Y 401 1 0
21 REMOTE_WIND_SW B Y Y 405 1 0
22 FACTORY_ENERGY F Y N 341 3600000 0
23 SCORE F Y N 345 3600000 0
24 COAL_ST F Y N 601 1 0
25 FACTORY_ST F Y N 605 1 0
26 SOLAR_CONNECT_ST B Y N 609 1 0
27 WIND_CONNECT_ST B Y N 613 1 0

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@ -8,13 +8,11 @@ import ch.hevs.isi.web.WebConnector;
public class Database { public class Database {
public static void main(String[] args) { public static void main(String[] args) {
MinecraftController.ERASE_PREVIOUS_DATA_INB_DB = true; MinecraftController.ERASE_PREVIOUS_DATA_INB_DB = true;
FloatDataPoint clock = new FloatDataPoint("CLOAK_FLOAT", false); FloatDataPoint clock = new FloatDataPoint("CLOCK_FLOAT", false);
FloatDataPoint gridVoltage = new FloatDataPoint("GRID_U_FLOAT", true); FloatDataPoint gridVoltage = new FloatDataPoint("GRID_U_FLOAT", true);
BooleanDataPoint solarPanel = new BooleanDataPoint("REMOTE_SOLAR_SW", true); BooleanDataPoint solarPanel = new BooleanDataPoint("REMOTE_SOLAR_SW", true);
DatabaseConnector.getMySelf().initialize(null); DatabaseConnector.getMySelf().initialize(null);
FieldConnector.getMySelf().initialize(null, 0);
WebConnector.getMySelf().initialize(null, 0);
clock.setValue(0f); clock.setValue(0f);

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@ -7,28 +7,16 @@ import ch.hevs.isi.field.FloatRegister;
public class Field { public class Field {
public static void main(String[] args) { public static void main(String[] args) {
//create an FieldConnector
//reads the datapoint values and displays them in the consol
FieldConnector.getMySelf().initialize("LocalHost", 1502,"src/main/resources/ModbusMap.csv");
//FloatRegister fRI = new FloatRegister("GRID_U_FLOAT",false,89); //create two datapoint to write a new value to them
BooleanRegister bRI = new BooleanRegister("SOLAR_CONNECT_ST", false ,609); BooleanDataPoint solarPanel = new BooleanDataPoint("REMOTE_SOLAR_SW", true);
FieldConnector.getMySelf().startPeriodicalPolling(); FloatDataPoint remoteFactorySp = new FloatDataPoint("REMOTE_FACTORY_SP", true);
//FloatRegister fRO = new FloatRegister("REMOTE_FACTORY_SP",true,205); //write to values
BooleanRegister bRO = new BooleanRegister("REMOTE_SOLAR_SW", true ,401); remoteFactorySp.setValue(0.74f);
solarPanel.setValue(true);
/*
fRO.fdp.setValue(0.8F);
bRO.bdp.setValue(true);
*/
while(true)
{
/*
float value = fRI.dataPoint.getValue()*1000;
System.out.println(value);
*/
/*
System.out.println(bRI.bdp.getValue());
*/
}
} }
} }

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@ -24,16 +24,16 @@ public class Web {
Thread.sleep(2000); Thread.sleep(2000);
if(WebConnector.getMySelf().wss.getConnections().size() > 0){ if(WebConnector.getMySelf().wss.getConnections().size() > 0){
FloatDataPoint rfSP = (FloatDataPoint) DataPoint.getDataPointFromLabel("REMOTE_FACTORY_SP"); FloatDataPoint rfSP = (FloatDataPoint) DataPoint.getDataPointOnListFromLabel("REMOTE_FACTORY_SP");
if(rfSP != null) new FloatDataPoint("FACTORY_ST", true).setValue(rfSP.getValue()); if(rfSP != null) new FloatDataPoint("FACTORY_ST", true).setValue(rfSP.getValue());
FloatDataPoint cfSP = (FloatDataPoint) DataPoint.getDataPointFromLabel("REMOTE_COAL_SP"); FloatDataPoint cfSP = (FloatDataPoint) DataPoint.getDataPointOnListFromLabel("REMOTE_COAL_SP");
if(cfSP != null) new FloatDataPoint("COAL_ST", true).setValue(cfSP.getValue()); if(cfSP != null) new FloatDataPoint("COAL_ST", true).setValue(cfSP.getValue());
BooleanDataPoint solar = (BooleanDataPoint) DataPoint.getDataPointFromLabel("REMOTE_SOLAR_SW"); BooleanDataPoint solar = (BooleanDataPoint) DataPoint.getDataPointOnListFromLabel("REMOTE_SOLAR_SW");
if(solar != null) new BooleanDataPoint("SOLAR_CONNECT_ST", true).setValue(solar.getValue()); if(solar != null) new BooleanDataPoint("SOLAR_CONNECT_ST", true).setValue(solar.getValue());
BooleanDataPoint wind = (BooleanDataPoint) DataPoint.getDataPointFromLabel("REMOTE_WIND_SW"); BooleanDataPoint wind = (BooleanDataPoint) DataPoint.getDataPointOnListFromLabel("REMOTE_WIND_SW");
if(wind != null) new BooleanDataPoint("WIND_CONNECT_ST", true).setValue(wind.getValue()); if(wind != null) new BooleanDataPoint("WIND_CONNECT_ST", true).setValue(wind.getValue());
time += 0.1f; time += 0.1f;