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I post this question in CodeReview here, but nobody saw it, so I post here.

If this is not the place for this type of question, please tell me and I will delete it.

I am facing a issue with a API to handle Dates in Java. I am not a very experienced programmer and my english is very bad, sorry for that.

Problem

I'm working in a large project with many subsystems, and I want to make a Date Utility library to manage all dates in the system.

Requirements

Platform

  • Only Java 1.6
  • The front end is a JSF page with RichFaces
  • The application generate reports with JasperReports
  • The back end is a Spring 3.1 Application
  • Is desirable to support Calendar and XMLGregorianCalendar (for Jaxb2 Serialization)

Business Logic

  • The system must support six types of dates:
    • Short date format: dd-MM-yy
    • Date format: dd-MM-yyyy
    • Time format (only hours and minutes): HH:mm
    • Time and date: dd-MM-yyyy HH:mm
    • Time and short date: dd-MM-yy HH:mm
  • The consistency is the most important thing in the design

The long format is for details, and the short is for grids and places with little space.

Code

API

// Format using dd-MM-yy
public String asShortDate(@Nullable Date date) ;

// Parse using dd-MM-yyy
public Date parseShortDate(@Nullable String string) throws ParseException;

// Format using dd-MM-yyyy
public String asDate(@Nullable Date date);

// Parse using dd-MM-yyyy
public Date parseDate(@Nullable String string) throws ParseException;

// Format using HH:mm
public String asTime(@Nullable Date date);

// Parse using HH:mm
public Date parseTime(@Nullable String string) throws ParseException;

// Format using dd-MM-yyyy HH:mm
public String asDateTime(@Nullable Date date);

// Parse using dd-MM-yyyy HH:mm
public Date parseDateTime(@Nullable String string) throws ParseException;

// Format using dd-MM-yy HH:mm
public String asShortDateTime(@Nullable Date date) ;

// Parse using dd-MM-yy HH:mm
public Date parseShortDateTime(@Nullable String string) throws ParseException;

Parser and Formatter

protected synchronized String dateToString(Date date, String format) {

    if (date == null) {
        return EMPTY_STRING;
    }
    return getFormat(format).format(date);
}

/**
 * @param string
 * @return
 * @throws ParseException
 */
protected synchronized Date stringToDate(String string, String format)
        throws ParseException {

    if (string == null || EMPTY_STRING.equals(string)) {
        return null;
    }
    SimpleDateFormat sdf = getFormat(format);
    ParsePosition psp = new ParsePosition(0);
    if (string.length() != format.length()) {
        throw new ParseException("Imposible parsear", 0);
    }
    Date toRet = sdf.parse(string, psp);
    if (psp.getIndex() != string.length()) {
        throw new ParseException("Imposible parsear", psp.getIndex());
    }
    return toRet;
}

/**
 * Provee un formato
 * 
 * @param format
 * @return
 */
private SimpleDateFormat getFormat(String format) {

    if (!initialized) {
        init();
    }
    if (!formats.containsKey(format)) {
        throw new IllegalArgumentException("Unknow format " + format);
    }
    return formats.get(format);
}

Other

private synchronized void init() {

    if (initialized) {
        return;
    }
    initialized = true;
    formats = new HashMap<String, SimpleDateFormat>(5);
    formats.put(DATE_FORMAT, new SimpleDateFormat(DATE_FORMAT));
    formats.put(DATE_SHORT_FORMAT, new SimpleDateFormat(DATE_SHORT_FORMAT));
    formats.put(TIME_FORMAT, new SimpleDateFormat(TIME_FORMAT));
    formats.put(DATETIME_FORMAT, new SimpleDateFormat(DATETIME_FORMAT));
    formats.put(DATETIME_SHORT_FORMAT, new SimpleDateFormat(
            DATETIME_SHORT_FORMAT));
    for (SimpleDateFormat sdf : formats.values()) {
        sdf.setLenient(false);
    }
}

Considerations

  • I made the methods stringToDate, dateToString and init as synchronized because SimpleDateFormat is not thread-safe, and I only want one initialization.
  • I made the DateFormat not lenient because I don't want to handle wrong format dates
  • The methods names are for enhance readability (as* always return a String, and parse* always return a Date).

Further develop

  • A JSF Date converter to manage automatically all dates.
  • A JSF Phase listener to format all dates.
  • A @Annotation to differentiate between different kinds of types

My Questions

  • Is this approach right and maintainable?
  • My considerations are right?
  • How I can improve this API?
  • Is correct to be restrictive about the lenient property, or is a waste of time?
  • When I run this in parallel (100000 threads) I see a 3,5% of failure, with weird error messages, I think it is because it is not thread safe. Which is the best way to solve this problem?

Source

Thanks for reading, and sorry for my bad English, Any suggestions is welcome

share|improve this question
    
why not to use joda-time? –  nachokk Sep 17 '13 at 2:22
    
Cause I only need a mechanism for format and parse, not handle it. I consider Joda, but, for now, I prefer no add dependencies. Cheers. –  AVolpe Sep 17 '13 at 2:27
    
You can use <f:convertDateTime> and forget all this. –  Luiggi Mendoza Sep 17 '13 at 2:28
    
@LuiggiMendoza yes, I want to add a <f:convertDateTime>, if you see the section Futher Develop, I want to add a PhaseListener to automatically add it to all Date fields, but, I want to make the entire process transparent and transversal for all pages (because I have many of them, and I don't want to add the tag in all pages). Cheers, and thanks for the edit. –  AVolpe Sep 17 '13 at 2:34
    
Then create a custom component instead of trying to do all this. –  Luiggi Mendoza Sep 17 '13 at 2:38

4 Answers 4

up vote 3 down vote accepted
+100

The question is a remarkable one (even if not 100% fit for the site), it is very pleasing to see that kind of effort put into having clean and maintainable code at other places in the world too.

I'd focus on the structures used rather than the actual conversion, though I do take into account thread safety - which is of key importance when dealing with SimpleDateFormat. So for choosing the tool you need (like the Joda-Time library, the obligatory recommendation on this topic)

Let's analyze the issue at hand, taking a step back:

  • you have a fixed logic to apply to the same input and output types, but the actual operation done is different in each case
  • you want to enforce a fixed set of operations

The first point calls for the Strategy pattern, it seems applicable here without any awkwardness, or signs of patternitis.

public interface IDateFormatter {
    String format(Date d);
    Date parse(String s) throws ParseException;
}

(ParseException is totally applicable here semantically, not just because it is what SimpleDateFormat throws...)

The second point calls for using an enum for holding the individual strategy instances. (I'm not sure however that by restricting the set of elements, it can be called a Strategy though, as this way it is not really extensible.)

Bear in mind, that this exact code, using SimpleDateFormat instances, is not thread safe! Given a thread safe conversion implementation instead of SimpleDateFormat, this structure is sufficient.

public enum DateFormatter implements IDateFormatter {
    DATE_FORMAT(DATE_FORMAT),
    DATE_SHORT_FORMAT(DATE_SHORT_FORMAT),
    TIME_FORMAT(TIME_FORMAT),
    DATETIME_FORMAT(DATETIME_FORMAT),
    DATETIME_SHORT_FORMAT(DATETIME_SHORT_FORMAT);

    // for single threaded environments only! 
    // (or substitute with thread safe implementation!)
    private final SimpleDateFormat format; 

    private DateFormatter(String s) {
      format = new SimpleDateFormat(s);
    }

    public String format(Date d) {
      return format.format(d);
    }
    public Date parse(String s) throws ParseException {
      return format.parse(s);
    }
}

However, to put in another layer of abstraction, hiding the inner parts completely from the developers, you could wrap this up with the API you provided (and of course coupled with an appropriate set of visibility modifiers and package setup):

public class  MainDateFormatter<T extends Enum<T> & IDateFormatter> {

   //This stores the class for the enum, to 
   private final Class<T> clazz;

   public MainDateFormatter(Class<T> clazz) {
     this.clazz=clazz;
   }

   // Format using dd-MM-yy
   public String asShortDate(@Nullable Date date){
     return DateFormatter.DATE_SHORT_FORMAT.format(date);
   }

   // Parse using dd-MM-yyy
   public Date parseShortDate(@Nullable String string) throws ParseException;
     return DateFormatter.DATE_SHORT_FORMAT.parse(string);
   }

   //... and the rest similarly       
}

You also mentioned Spring: you could put this object into the application container, with a singleton scope, and be confident no one can use anything different - as that would make it convenient to access.

Dreaded multithreaded

SimpleDateFormat (and DecimalFormat, for that matter) is notoriously un-threadsafe. Also, ThreadLocals have quite some fears associated, but in this case, I wouldn't go against them, as long there is no "magic" applied here, and the classes are loaded using the same ClassLoader instance.

 public enum DateFormatter implements IDateFormatter {
    //... instances...

    // for multithreaded environments
    // BEWARE ClassLoader magic can break this leading to memory leak!
    final ThreadLocal<SimpleDateFormat> formats; 

    //note the final!
    private DateFormatter(final String s) {
      formats = new ThreadLocal<SimpleDateFormat>() {
        @Override
        protected SimpleDateFormat initialValue()
        {
          return new SimpleDateFormat(s);
        }
      };
    }

    public String format(Date d) {
      return formats.get().format(d);
    }

    public Date parse(String s) throws ParseException {
      return formats.get().parse(s);
    }
}

(bits and pieces taken from this answer)

Just how non-thread-safe are the SimpleDateFormat and DecimalFormat?

When I run this in parallel (100000 threads) I see a 3,5% of failure, with weird error messages, I think it is because it is not thread safe.

A former colleague of mine did an experiment: 2 threads were enough to mess up the conversion, and get output like 31st February with SimpleDateFormat, and weird output not even closely related to the input numbers with DecimalFormat. No wonder Sonar warns about these being put into static final variables...

The bad news is, most of the errors would go unnoticed, until someone complained... If there are weird error messages getting to the surface, that is a whole different level of problem.

Fighting this might involve using ThreadLocals, (or object pools, if not too much overhead) if you see that creation of the format objects is a bottleneck, or if that is not the case, just by creating "short lived", strictly local instances. whenever a conversion is to take place.

API cleanness

At first, I had controversial feelings, as your proposed API has a lot of methods with the same signature; all using same input to provide same output, they share the logic. I did in fact write a little class to "remedy" this:

public class  DateFormatterHider<T extends Enum<T> & IDateFormatter> {
   private final Class<T> clazz;

   public DateFormatterHider(Class<T> clazz) {
     this.clazz=clazz;
   }

   public String format(Date d, String formatCode) {
     return getEnumInstance(formatCode).format(d);
   }
   public Date parse(String s, String formatCode) throws ParseException {
     return getEnumInstance(formatCode).parse(s);
   }
   private T getEnumInstance(String formatCode) {
       return Enum.valueOf(clazz,formatCode);
   }
}

But after I wrote this, It didn't seem so nice anymore:

  • this requires String constants (I don't like them.), which need to be put somewhere
  • the parse method has a signature parse(String,String) -- can be annoying, and a general smell

What seems to be an advantage is that it allows for swapping the implementation by providing a different enum class (for example just in the Spring XML), but this quickly turns into a nightmare: as the format code is a String, it does not provide any way of tracking the dependencies. If one swaps the enum, and mistypes an enum name, the code might only ever fail fatally on Christmas night, during singing Oh Tannenbaum (*) with the kids, which can quickly get two endings: getting fired, or painful and long divorce. Code is dangerous!

So this - while an impressively convoluted 'geekish' solution, involving tricky generics - is a definite no-no.

A readable, understandable interface with enforcing the right dependencies is crucial in providing a maintainable application

Enforcing the date type conversions

Developers are inventive. Another word for this is lazy - this is the undesired kind of the same. Having rules to follow often tends to lead to a kind of inventiveness by providing genuine ways of going around the rules, so I'd create rules in your continuous integration system of choice to check that for example SimpleDateFormat is not used anywhere else in the code. If you want clean code over time, (which is goooood), it should be at least a Critical error. I'd say it wouldn't even hurt to make it fail the build...

Format guessing option

All your formats are unique in their lengths. This makes it technically possible for this exact situation to create a format guessing routine (BTW for those who read this far, would deserve to get a b33r, I think...), that tries to select the right format based on the length of the input string, and provide a method accepting one String, and still operate properly.

However, for me, this falls into the "hidden magic" category - it might be much more readable and maintainable not to have this function, as it would lead to errors go unnoticed (e.g. data coming in in the wrong format, etc...), which is something nobody wants! (Christmas night, Oh Tannenbaum, kids, you know the rest...)

*: not Oh Tanenbaum, that is a different story

share|improve this answer

Stipulating a fixed set of date formats is easier to enforce if this stipulation takes some kind of shape in code, and does not exist on paper alone. So yes, I can definitely see why you'd write this API.

Synchronizing on a single SimpleDateFormat instance per format per JVM, however, is not a good idea in a multi-threaded environment. It'll needlessly synchronize threads when some heavy parsing or formatting is going on.

You say you're afraid that your developers will do as they please and make a jumble out of the date/time parsing. I agree somewhat. It is rather counter-intuitive that SimpleDateFormat is not thread-safe and it's a good idea to remind new developers of that.

I also agree with the commenters, though. Switching to Joda-Time (or JSR-310 if you like the chance of getting rid of the Joda-Time library dependency come Java 8) would not only solve the synchronization issue, it'd bring you additional benefits. With Joda-Time comes a set of Date and Time classes that prevent plenty other easy to make, expensive to solve, bugs (Think new Date(20,9,2013)) and a mental model that thinks more cleanly about (for instance) time zones and the difference between time intervals and time-of-day. Your parseTime method returns a Date, for instance, where in fact the contents of that Date are a LocalTime.

I think it's a very good idea to create public constants for the format strings. People can use those as patterns for the f:convertDateTime then, too. In addition, you could create a factory class that hands out formatters. Let the developers decide when they can afford to create a new one and in which performance-heavy parts of the code they wish to reuse a single formatter instance they've obtained from your factory.

I found an example of such a factory class in the GWT library: DateTimeFormat. (Obviously, they have different reasons for wanting to restrict the usage of date time formatting.)

That leaves the multi-threading issue. I can see three alternative solutions for that, in my personal order of preference:

  1. Use Joda-Time / JSR-310
  2. Educate your developers. Talk with them, and add a reminder about thread safety in the javadoc of the factory methods.
  3. Fix it with code: Wrap the SimpleDateFormats you hand out in instances of a synchronizing wrapper class to prevent misuse. EDIT: or use the FastDateFormat that krishnakumarp suggests.
share|improve this answer

I think you should remove method init() and

in method getFormat(String format) you use a switch block:

Like this:

SimpleDateFormat retVal = null;
switch(format){
    case DATE_SHORT_FORMAT:{
        retVal = new SimpleDateFormat(DATE_SHORT_FORMAT);
        break;
    }
    //other cases
    default:{
        throw new IllegalArgumentException("Unknow format " + format);
    }
}
return retVal;

This approach is thread-safe, simple and maintainable.

share|improve this answer
    
Sorry, I forgot to mention that I'm bounded to Java 6, the String switch is a feature of Java 7. Cheers. –  AVolpe Sep 24 '13 at 11:30
1  
OK, but i think you should not use synchronization for creating SimpleDateFormat objects because cost of thread is big so no need synchronization for just saving memory when creating simple objects like SimpleDateFormat. –  ThoQ Luong Sep 24 '13 at 15:50

Preferred approach is to use standard JDK API or open source libraries (joda-time) or FastDateFormat(thread-safe, almost drop-in replacement for SimpleDateFormat) from commons-lang

It is better to create local instances of SimpleDateFormat when required. The performance gains by caching may not be much in the larger context of your application. This would help you avoid concurrency issues. See this thread

If you still want to do this:-

Since the formats you want to support is a finite set and since parsing is strict [setLenient(false)], you could consider writing custom parsing logic. The logic would be much simpler than a generic class such as SimpleDateFormat. You can avoid the format cache as well.

Just as an example (can be improved)

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

public class DateFormat {
    public final static String DATE_FORMAT = "dd-MM-yyyy";

    public static void main(String[] args) throws ParseException {
        Date date = parseDate("12-03-1927", DATE_FORMAT);
        System.out.println(date);
    }

    private static Date parseDate(String date, String dateFormat) throws ParseException {
        if(dateFormat.equals(DATE_FORMAT)) {
            if(date == null || date.equals(""))
                throw new ParseException(null, 0);
            if(date.length() != 10) 
                throw new ParseException(date, 0);
            int day=0, month=0, year=0;
            try {
                day = Integer.parseInt(date.substring(0, 2));
                month = Integer.parseInt(date.substring(3, 5));
                year = Integer.parseInt(date.substring(6, 10));
            } catch(NumberFormatException ex) {
                throw new ParseException(date + " not conforming to format " + dateFormat, 0);
            }
            if(date.charAt(2) != '-' || date.charAt(5) != '-' )
                throw new ParseException(date + " not conforming to format " + dateFormat, 0);
            return new Date(year - 1900, month -1, day);
        }
        return null;
    }

Regarding API, in the current form, you could make your public methods synchronized. This would act as a good documentation for your API users. Since, all public methods are simple wrappers for private synchronized methods, this wont affect performance or concurrency overhead.

This talk by Joshua Bloch on API Design is very good - How To Design A Good API and Why it Matters

share|improve this answer

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