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For c# developers that are staring out to learn Java, are there any big underlying differences between the two languages that should be pointed out?

Maybe some people may assume things to be the same, but there are some import aspects that shouldn't be overlooked? (or you can really screw up!)

Maybe in terms of OOP constructs, the way GC works, references, deployment related, etc.

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closed as too broad by Kirk Woll, Stephen C, Servy, S.L. Barth, alko Dec 4 '13 at 15:13

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

16 Answers 16

up vote 88 down vote accepted

A few gotchas off the top of my head:

  • Java doesn't have custom value types (structs) so don't bother looking for them
  • Java enums are very different to the "named numbers" approach of C#; they're more OO. They can be used to great effect, if you're careful.
  • byte is signed in Java (unfortunately)
  • In C#, instance variable initializers run before the base class constructor does; in Java they run after it does (i.e. just before the constructor body in "this" class)
  • In C# methods are sealed by default. In Java they're virtual by default.
  • The default access modifier in C# is always "the most restrictive access available in the current context"; in Java it's "package" access. (It's worth reading up on the particular access modifiers in Java.)
  • Nested types in Java and C# work somewhat differently; in particular they have different access restrictions, and unless you declare the nested type to be static it will have an implicit reference to an instance of the containing class.
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+1 This is a great list for starters. – Jim Schubert Jan 6 '10 at 17:24
@Jon Skeet: +1, And you would probably miss Lambda and LINQ until Java 7? – Kb. Jan 6 '10 at 17:57
"In C#, instance variable initializers run before the base class constructor does; in Java they run after it does (i.e. just before the constructor body in "this" class)" -- Eeer, could you elaborate this? Not sure I really understand what you're saying :) – cwap Jan 6 '10 at 19:55
@cwap: In C#, the execution order is "instance variable initializers, base class constructor, constructor body". In Java it's "superclass constructor, instance variable initializers, constructor body". (Instance variable initializers are what you get when you assign a value to an instance variable at the point of declaration.) – Jon Skeet Jan 6 '10 at 20:01
@cwap: Yes, that's what I mean - the latter is an object initializer. – Jon Skeet Jan 7 '10 at 7:19

here is a very comprehensive comparison of the 2 languages:


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great link jspcal – mrblah Jan 6 '10 at 18:17

I am surprised that no one has mentioned properties, something quite fundamental in C# but absent in Java. C# 3 and above has automatically implemented properties as well. In Java you have to use GetX/SetX type methods.
Another obvious difference is LINQ and lambda expressions in C# 3 absent in Java.
Few other simple but useful things like verbatim strings (@""), operator overloading, iterators using yield and pre processor are missing in Java as well.
One of my personal favourite in C# is that Namespace name doesn't have to follow the physical directory structure. I really like this felixibility.

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There are a lot of differences, but these one's come to mind for me:

  • Lack of operator overloading in Java. Watch your instance.Equals(instance2) versus instance == instance2 (especially w/strings).
  • Get used to interfaces NOT being prefixed with an I. Often you see namespaces or classes suffixed with Impl instead.
  • Double checked locking doesn't work because of the Java memory model.
  • You can import static methods without prefixing them with the class name, which is very useful in certain cases (DSLs).
  • Switch statements in Java don't require a default, and you can't use strings as case labels (IIRC).
  • Java generics will anger you. Java generics don't exist at runtime (at least in 1.5), they're a compiler trick. Which causes problems if you want to do reflection on the generic types.
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Last I checked, strings did NOT overload ==, and I haven't heard of it being added for Java 7 either. They do, however, overload + for string concatenation. – Michael Madsen Jan 6 '10 at 19:46
Yes, comparing strings with == is a very common pitfall for newbies. .equals is what you have to use. – Michael Myers Jan 6 '10 at 20:09
Also, I don't understand the comment about static methods. Don't pretty much all languages allow static methods or the equivalent? – Michael Myers Jan 6 '10 at 20:12
I nearly upvoted this, but I disagree about generics. I like the type erasure. – finnw Jan 29 '10 at 1:46
"Switch statements in Java don't require a default" - nor does C#. – RenniePet Jul 12 '13 at 2:57

.NET has reified generics; Java has erased generics.

The difference is this: if you have an ArrayList<String> object, in .NET, you can tell (at runtime) that the object has type ArrayList<String>, whereas in Java, at runtime, the object is of type ArrayList; the String part is lost. If you put in non-String objects into the ArrayList, the system can't enforce that, and you'll only know about it after you try to extract the item out, and the cast fails.

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...although it's worth adding that you cannot put non-String objects in that list without making an unchecked cast, somewhere, and the compiler will correctly warn you at that point that the compiler can no longer check the generic bounds. So long as your list is always stored in a variable of List<String>, attempts to insert a non-String object into it will not compile. – Andrzej Doyle Jan 6 '10 at 18:13
"non-String objects into the ArrayList, the system can't enforce that": Note that the system does enforce it at compile-time. You can however circumvent this by casting (or not using generics); then the runtime check will catch it, but only when extracting. – sleske Jan 6 '10 at 18:15
@Andrzej, @sleske: I'm only talking about runtime. Say you get the object via reflection, and invoke its add method (again, via reflection). Will the system reject a non-String object straight away, or only when casting the result of get? – Chris Jester-Young Jan 6 '10 at 18:24
@sleske: But IIRC you only need an implicit cast to circumvent the type check. – nikie Jan 6 '10 at 20:17
@Judah: I rolled back your change (yes, a year after the fact), because you cannot have objects of type List. You can have objects of types descending from List, like ArrayList and LinkedList. (It's important to use List instead of ArrayList when passing them around, but it doesn't change the fact that you cannot say new List().) – Chris Jester-Young Jan 11 '11 at 16:55

One thing I miss in C# from Java is the forced handling of checked exceptions. In C# is it far to common that one is unaware of the exceptions a method may throw and you're at the mercy of the documentation or testing to discover them. Not so in Java with checked exceptions.

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FWIW, this was considered in the dev't of C# and the rationale for leaving them out is real. Consider . It's not that the designers are philosophically opposed to checked exceptions-- rather, they're waiting for a better technique that offers similar benefits without all the hairy drawbacks. – Greg D Jan 6 '10 at 17:47
Yes, yes, a very contentious subject... – sleske Jan 6 '10 at 18:18
I like the fact that C# does not have checked exceptions, but this was the first post to even point out the difference, so +1. – Nick Jan 6 '10 at 19:22

No delegates or events - you have to use interfaces. Fortunately, you can create classes and interface implementations inline, so this isn't such a big deal

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"isn't such a big deal". Right. Because x => x.Foo vs. new Bar() { public void M(SomeType x) { return x.Foo; } } -- who cares about code being 10 times shorter? – Kirk Woll Dec 5 '13 at 2:43

Java has autoboxing for primitives rather than value types, so although System.Int32[] is an array of values in C#, Integer[] is an array of references to Integer objects, and as such not suitable for higher performance calculations.

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Pete: that's an excellent point, and one that I never knew or at least never considered (being a C# developer and new to Java). – Jim Schubert Aug 18 '10 at 13:32

There are no delegates in Java. Therefore, aside from all the benefits that delegates bring to the table, events work differently too. Instead of just hooking up a method, you need to implement an interface and attach that instead.

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The built-in date/calendar functionality in Java is horrible compared to System.DateTime. There is a lot of info about this here:

Some of these can be gotchas for a C# developer:

  • The Java Date class is mutable which can make returning and passing dates around dangerous.
  • Most of the java.util.Date constructors are deprecated. Simply instantiating a date is pretty verbose.
  • I have never gotten the java.util.Date class to interoperate well with web services. In most cases the dates on either side were wildly transformed into some other date & time.

Additionally, Java doesn't have all the same features that the GAC and strongly-named assemblies bring. Jar Hell is the term for what can go wrong when linking/referencing external libraries.

As far as packaging/deployment is concerned:

  • it can be difficult to package up web applications in an EAR/WAR format that actually install and run in several different application servers (Glassfish, Websphere, etc).
  • deploying your Java app as a Windows service takes a lot more effort than in C#. Most of the recommendations I got for this involved a non-free 3rd party library
  • application configuration isn't nearly as easy as including an app.config file in your project. There is a java.util.Properties class, but it isn't as robust and finding the right spot to drop your .properties file can be confusing
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One thing that jumps out b/c it's on my interview list is that there is no "new" keyword analogue in Java for method hiding and there fore no compiler warning "you should put new here". Accidental method hiding when you meant to override leads to bugs.

(edit for example) Example, B derives from A (using C# syntax, Java behaves same way last I checked but does not emit compiler warning). Does A's foo get called, or B's foo? (A's gets called, probably surprising the dev who implemented B).

class A 
public void foo() {code}

class B:A
public void foo() {code}

void SomeMethod()
A a = new B(); // variable's type is declared as A, but assigned to an object of B.;
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How do you accidentally hide an instance method in Java? they're either final - so no override or new method to intentionally hide - or non-final so overridden rather than hidden. – Pete Kirkham Jan 6 '10 at 18:46
Added example. I haven't tested it in Java in a while, but the interview question originally came from the Java group from my previous company. In C#, the compiler warning usually means that people change the name. I admit it is pretty odd case, but OP seemed to be asking for things that would be potential hard to find problems when switching langs. – Jim L Jan 6 '10 at 20:35
The difference here is that in Java all methods are virtual (so in Java, it will be that gets called because Java always does dynamic method dispatch), whereas in C# methods are not virtual by default (and would be called). Many coding style checkers for Java will tell you that B should use the @Override annotation. – William Billingsley Jan 7 '10 at 3:32

The one issue I've run into so far when working with Java coming from C# is Exceptions and Errors are different.

For example you cannot catch an out of memory error using catch(Exception e).

See the following for more details:


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It's intentionally designed that way to discourage the application programmer from catching it – finnw Jan 29 '10 at 1:49
Yeah I'm sure it was, but coming from the C# side, where all you have to worry about is catching exceptions, threw me for a loop :) – Crispy Jan 29 '10 at 4:29

It's been so long since I've been in Java but the things I noticed right off the bat in application development was C# event model, C# drag and drop vs using Layout Managers in Swing (if your doing App dev), and exception handling with Java making sure you catch an exception and C# not required.

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The most harrasing difference to me when I switch to java it's the string declaration.

in C# string (most of the time) in Java String

It's pretty simple, but trust me, it makes you lose so much time when you have the habit to s notS !

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Java doesn't have LINQ and the documentation is hell. User interfaces in Java are a pain to develop, you lose all the good things Microsoft gave us (WPF, WCF, etc...) but get hard - to - use, hardly documented "APIs".

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In response to your very direct question in your title:

"C# developers learning Java, what are the biggest differences one may overlook?"

A: The fact that Java is considerably slower on Windows.

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I run OpenSuSE 64bit and Windows 7 64bit, and Eclipse IDE is ("seems") faster in Windows. Is your answer based on personal observation or on actual benchmarks? – Jim Schubert Aug 18 '10 at 13:34

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