I have two different arrays an ArrayList
of doubles and an Array of Strings
public class tester {
private final static String TIME[]={ "8:00", "9:00", "10:00", "11:00",
"12:00", "13:00", "14:00", "15:00", "16:00", "17:00", "18:00", "19:00" };
public static void main(String[] args){
ArrayList<Double> stat = new ArrayList<>();
stat.add(1.0);
stat.add(2.0);
stat.add(3.0);
stat.add(4.0);
stat.add(5.0);
stat.add(6.0);
stat.add(7.0);
stat.add(8.0);
stat.add(9.0);
stat.add(10.0);
stat.add(11.0);
stat.add(12.0);
int i = 0;
for (String time : TIME) {
System.out.println(time+" "+stat.get(i));
i++;
}
My question is quite simple is this the best way to loop through each array if I want to get the same position of each array to match? so that stat.get(0) ==TIME.get(0)
?
Update
First of all thank you all for your quick response i like the idea of creating a class however there is something you need to know.
The thing you saw was a test class that i use to test my data.
i KNOW that the two arrays will ALWAYS be the same size due to the fact that the stat ArrayList normally defined like the following:
stat is a calculated value of data gained from the database the value of stat is based on time and then sent back to the GUI to be put into a graph and a table.
This means that for each of the TIME there is an exisiting value so that stat.get(0) is ALWAYS equal to TIME.get(0) == "8:00".
With this in mind do you still think i should create a class or should i keep the class showed below and then add a HashMap containing the data then iterate over that map to insert the data in my GUI?
public class Statistics {
private ArrayList<CallQueue> queues = new ArrayList<CallQueue>();
private ArrayList<Double> averageData = new ArrayList<Double>();
private Provider p;
public Statistics(){
try {
this.p = new Provider();
} catch (DopeDBException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
}
/**
* This recursive method calculates the average of each time table and then adds its to the arrayList in the following order:
* 8.00 = 0
* 9.00 = 1
* 10.00 = 2
* 11.00 = 3
* 12.00 = 4
* 13.00 = 5
* 14.00 = 6
* ect.
* @param time
*/
public void calculateAverage(){
int data = 0;
for (int i = 8; i < 20; i++) {
for (CallQueue cq : queues) {
data += cq.getCallsByTime(i);
}
if (data == 0) {
Main.createErrorMessage("Fejl i dataen! \r\n kontakt venligst ansvarlige i Dope");
}
averageData.add((double) data/11);
}
}
/**
* @author MRCR
* This method recives the object list from the database and sets the currentlist to the list recived.
*/
public void setQueues(Calendar start, Calendar end){
try {
queues = p.getInformation(start, end, queues);
} catch (DopeDBException e) {
// TODO Auto-generated catch block
Main.createErrorMessage("Message");
} catch (DopeResultSetException e) {
// TODO Auto-generated catch block
Main.createErrorMessage("Message");
}
}
/**
* This method returns the calculated DataList list.
* @author MRCR
* @return averageData
*/
public ArrayList<Double>getData(Calendar start, Calendar end){
setQueues(start, end);
calculateAverage();
return averageData;
}
}
import java.util.HashMap;
public class CallQueue {
private String type;
private HashMap<Integer, Integer> data = new HashMap<Integer,Integer>();
public CallQueue(String type){
this.type = type;
}
public String getType(){
return type;
}
public int getCallsByTime(int time){
return data.get(time);
}
public void addCallsByTime(int hourOfDay, int callAmount) {
data.put(hourOfDay, callAmount);
}
}