I read a lot of blogs and see people all the time talking about bad things in the java programming language; a lot of them are about annotations and generics that were added to the language in 1.5 release. What are the things in the language or the API that you don't like or would design differently?
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closed as not constructive by finnw, animuson, Chris Gerken, Code-Guru, Shree Nov 27 '12 at 3:44
As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or specific expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, see the FAQ for guidance.
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I really don't like the manipulation of dates in Java (java.util.Date, java.sql.Timestamp, java.sql.Date, java.util.Calendar). |
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generics-as-afterthought |
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I think the Java language is overall well designed. I just think it's way too verbose. |
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Arrays are covariant which shouldn't be. See: Wikipedia Article |
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Ever since I have learned python, I just find that Java lacks the possibility of returning multiple values easily: Edit: as mmyers pointed out, the following is legal as of Java 5: |
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On the java platform: AWT, and the XML APIs (it's amazing what you have to do just to parse a String into a DOM tree) On the language: add type inference and tuples, generics without erasure, make 'volatile', 'strictfp' and 'transient' annotations |
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All References are nullable All references are nullable, which causes a lot of NullReferenceExceptions. I think something like "Option" (Scala) is better suited for those rare cases where an object reference actually should be able to be "Nothing". Of course that would have required Generics and some Pattern Matching right from Version 1. |
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Primitive types (ints etc.) are not objects like in Smalltalk, forcing the programmer to use boxing classes such as Integer. Smalltalk integers are real objects. In order to avoid overhead, they are not implemented as "boxed" primitives, like Java does, but instead as "immediate" objects: the object's value is stored within the object "pointer" (the same is true with individual characters) To do so, it uses the pointers' low bits, which are always zero for regular objects (since structures are usually word-aligned), as "tags" to differentiate immediate objects with the former. For example, if a pointer's bit 0 is set, it designates a SmallInteger object: its integer value is stored in the remaining 31 bits. Larger integers use regular objects with infinite precision (AKA bigint). Java 5's autoboxing is the worst of all solutions, because it hides the overhead behind syntactic sugar: the programmer is unaware of the fact that objects are created behind his back although he's using primitives. Not only that, but several Integer objects could be created for the same int value. Whereas in Smalltalk, the value IS the objects. This also allows the compiler to generate optimal code, in a way that can't be done with boxed objects. Smalltalk proves that primitive types can be objects AND be implemented efficiently. This is one of the reasons why Java cannot be considered a high level language (not that this can be a problem or drawback in any way, there is ample room for system level programming languages). |
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The test-unfriendly servlet API... you need a framework to be able to mock a bloody Request! |
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No destructors, therefore no possibility of RAII. Most objects are memory-only, which Java's GC handles just fine. But whenever you have a class that allocates non-memory resources (e.g. DB handles), you need to remember to clean it up in a This is one of the (few?) things C++ got right -- you write the cleanup code just once in a destructor, and the language guarantees that it will always be called when an instance of that class goes out of scope, even in the event of an exception. I realise that Java is GC-collected, but RAII and GC are not mutually exclusive -- there just needs to be a way to specify deterministic destruction at scope exit for a particular class or instance, and to provide a destructor. Really, you would not believe how much this simplifies resource management. It's been 5 years since I touched Java, maybe this has changed? |
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Keeping too much C syntax that was known to be problematic. The switch statement should have been redone for Java. Operator precedence is at least a more complicated problem; while Java could do better than C there was some advantage in keeping it. One goal for C++ was to be at least a better C, and so Stroustrup had an excuse for keeping bad C decisions. Gosling et al. didn't. Edit: Also octal literals (thanks, Dan Dyer, for pointing that out). Those are very useful things for writing OS internals and bit-grovelling code, which are applications Java isn't usually used for. |
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Checked exceptions are a problem in Java because they may break encapsulation. There is an interview worth reading with Anders Hejlsberg on Artima where he talks about that:
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Too much focus on simplicity at the expense of expressiveness. That basically sums it up. |
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No destructor. I wish there was a standard (optional) way to say "I'm done with this, run some code", rather than relying on the finalize method that may never get called. I'm not talking about having to manage memory, just that when you do want to finish with something, there was a standard call to make which would do whatever clean up you wanted and then provide (maybe) some hint to the Garbage Collector that you're done with it. I'm sick of having some classes with a "close" method, and some with a "done" method, and so on and so forth. |
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JNI could be one of the worst in Java. It is much much more time wasting if you compare it with PInvoke in .NET. |
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Not necessarily things they did wrong, but things that I would have liked:
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Ugly looking default GUI, I think Java would gain a lot if they provided a nice default look-and-feel. |
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Java believes its own hype. No way to take off the training wheels. Whenever I have to use Java I feel like I am on a kiddy trike. It is overly difficult to reuse code. Other languages encourage decoupling shared functionality from a single object, but in java the only way is inheritance which is often blocked for other reasons. How do you add a method to String? No first class functions. Not everything is always object oriented. Tying the class name to the file name. This makes it hard to use the same file in multiple projects. No pointers. No preprocessor. Unless your projects are very simple or very isolated, having a preprocessor is invaluable. No manual memory management. It is convenient to ignore memory management sometimes, but not to be forced to it. No way to tell if an object implements a method. The information is there, but hidden because somebody might be allergic to details or something. No way to call a method on an arbitrary object by name. Right now you basically have to make an interface for every single function, when that should just be implied. No consistency in the core data structures. There are so many implementations of lists and maps and vectors and arrays and none are interchangeable. Not cross platform. The one strength of java should be that once you port the virtual machine everything else just works, but that is not always the case in practice. I have one product for two platforms and very little code works on both. There is not a single file that I could use in both versions of the same program without some modification. Java always feels so slow. You can argue that it is just as fast as this or that, but my perception is always that if it was not java it would be much faster. |
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In JDBC the java.sql.Date class has no time component. This forces you to use Timestamp, which confuses Oracle when your dates are stored as Oracle DATE values. Also I'm not crazy about how Java is packaged. It's annoying to have to set up class paths and jar files and don't get me started with EAR files and WAR files. There is room for improvement here. |
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I tend to get a little irked by the deprecation of good useful objects and their replacement with ugly, hard to use objects (example: Date & Calendar). |
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A couple of years ago I appreciated Java more than I do today. I fell deeply in love with their packaging. Today I despise it. A gazillion classes all over the place packaged in a way that would have very little sense hadn't you had experience armed with you. Check out the language ref for AS3 and see what I mean. The 2nd day I started working in AS3 I wasn't going on google looking for tutorials on how to do something, I was already a natural, knowing instantly where that class that I never knew even existed, that did exactly what I needed, was located. Java still has a great community, but it's not as intuitive getting involved in their communities as it is with other languages. Other languages have provided way better developer portals, way better and more resources. Basically, Java got too big to handle, got big before they'd lain out everything for its growth. It's too bogged, too confusing. They used to be the forward thinkers in so many aspects, now they are good in few and in some we just wish Java would collapse once and for all. |
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I like Java a lot, but mainly two things bug me:
Also I think |
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GC While GC is incredibly convenient, an unpredictable GC is not suitable for certain applications. One such example would be hard real time systems. In a hard real time system a single unexpected delay can result in mission failure. Examples of such hard real time system would be: fly by wire systems on a fighter jet, navigation systems on a missile, robotic arms that perform surgery, etc. Also, getting killed in a real time video game is also a mission failure. You don't want to GC right at the moment the player pressed the "dodge the giant fireball that will kill my character and force me to redo the 20 minute long level," button. That is a very important button. (Although it has been noted that in multi-tasking OS you cannot control the task priority which could easily be worse than a large GC operation.) Static Polymophism Ignoring static polymorphism. Static polymorphism could go beyond "C++ like" templates, and it is a very useful optimization. Generics as implemented in Java is still dynamic and it loses that opportunity to eliminate run-time type checking where compile time type checking would is enough. Of course is possible for increased code size to reduce performance more so than dynamic types would. As with all optimizations it should be profiled. Everything is in a class Although nit picky, there are times when you just want a function. Currently in Java you must put such functions in a class as a static function. A better solution would be a function in a namespace. While a class can work like a namespace, classes cannot span multiple files and libraries. |
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Making up a whole new logging api (java.util.logging) to be the new standard was a mistake that annoys me. I have to create a subclass of a Formatter just to get output on only one line! What was wrong with log4j? |
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Not that important, but something I never thought about before today:
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There are serious downsides which result in boilerplate patterns:
...and so on. |
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