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I'm trying to figure out how to parse a long string and, based on some index and length, get that value converted to a specific data type the fastest possible because I need to process about 1000 strings/second. To be clear, I need something like this

String initial = "4239898 mdj 8746bbbrts675420120214";

Someclass parser = new Someclass(initial);

Date date = parser.getDate(26,8);

So date is parsed using the substring from position 26 to 26+8

So basically, I would like to know if is there already a class which helps me to accomplish this or if any one could suggest some fast algorithm.

Thanks in advance

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Thank you very much for your great and fast replies. It seems to do it the old way is the fastest :) –  master_of_merol Feb 15 '12 at 19:46

4 Answers 4

import java.text.DateFormat;
import java.text.SimpleDateFormat;
import java.text.ParseException;
import java.util.Date;

public class SomeClass {
    public static void main(String []args)  {
        String initial = "4239898 mdj 8746bbbrts675420120214";

        SimpleDateFormat format = new SimpleDateFormat("yyyyMMdd");
        Date parsed = new Date();

        try {
            parsed = format.parse(initial.substring(26,34));
        }
        catch(ParseException pe) {
            pe.printStackTrace();
        }

        System.out.println(parsed);
    }
}
share|improve this answer

I've just found a really cool "framework" for my purpose. It's called fixedformat4j and it does exactly what I want and with a very fast performance even it's a little old.

Here's the basic example found on its website ( http://fixedformat4j.ancientprogramming.com/ ) :

@Record  
public class BasicRecord {  

  private String stringData;  
  private Integer integerData;  
  private Date dateData;  


  @Field(offset = 1, length = 10)  
  public String getStringData() {  
    return stringData;  
  }  

  public void setStringData(String stringData) {  
    this.stringData = stringData;  
  }  

  @Field(offset = 11, length = 5, align = Align.RIGHT, paddingChar = '0')  
  public Integer getIntegerData() {  
    return integerData;  
  }  

  public void setIntegerData(Integer integerData) {  
    this.integerData = integerData;  
  }  

  @Field(offset = 16, length = 10)  
  @FixedFormatPattern("yyyy-MM-dd")  
  public Date getDateData() {  
    return dateData;  
  }  

  public void setDateData(Date dateData) {  
    this.dateData = dateData;  
  }  
}  

This annotated class can now be loaded and exported using a FixedFormatManager

public class BasicUsage {  

  private static FixedFormatManager manager = new FixedFormatManagerImpl();  

  public static void main(String[] args) {  
    String string = "string    001232008-05-29";  
    BasicRecord record = manager.load(BasicRecord.class, string);  

    System.out.println("The parsed string: " + record.getStringData());  
    System.out.println("The parsed integer: " + record.getIntegerData());  
    System.out.println("The parsed date: " + record.getDateData());  

    record.setIntegerData(100);  
    System.out.println("Exported: " + manager.export(record));  
  }  
}  
share|improve this answer

There's nothing that I know of. I don't see how to do it faster than the following:

public Date getDate(int start)
{
    int year = Integer.parseInt( initial.substring(start, start + 4) );
    int month = Integer.parseInt( initial.substring(start + 4, start + 6) );
    int day = Integer.parseInt( initial.substring(start + 6, start + 8) );
    return new Date(year, month, day);
}

If all your dates are in the format YYYYMMDD, that's probably faster than using the SimpleDateFormat class. (Note that you don't need to pass the length (8) in that case).

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Interesting explanation from this string article

StringBuilder class was introduced in JDK 1.5. It is the same as StringBuffer class, except that StringBuilder is not synchronized for multi-thread operations. However, for single-thread program, StringBuilder, without the synchronization overhead, is more efficient.

Rule of Thumb: Strings are more efficient if they are not modified (because they are shared in the string common pool). However, if you have to modify the content of a string frequently (such as a status message), you should use the StringBuffer class (or the StringBuilder described below) instead.

So you can probably experiment with these two classes or the default String class. Decide which one works best in your situation. I have the following class which give about 300ms under extremely heavy loaded system.

import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Date;


public class StringEfficientParser
{

    //String initial = "4239898 mdj 8746bbbrts675420120214";
    public static void parseString(String input) throws ParseException
    {

        StringBuilder sb = new StringBuilder(input);
        String input_date = sb.substring(26, 34);
        SimpleDateFormat sdf = new SimpleDateFormat("yyyymmdd");
        Date date = sdf.parse(input_date);

    }

    public static void main(String[] args) throws ParseException
    {
        long start = System.currentTimeMillis();
        for (int i = 0; i < 1000; i++)
        {
            parseString("4239898 mdj 8746bbbrts675420120214");          
        }
        long stop  = System.currentTimeMillis();

        System.out.println("elapsed time : " + (stop - start));
    }

}
share|improve this answer
    
Thak for your answer. It seems StringBuilder is realy faster than String. :) –  master_of_merol Feb 15 '12 at 19:49
    
yes, for single threaded application, it should be. –  Jasonw Feb 16 '12 at 1:16

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