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Coming from C++ to Java, the obvious unanswered question is why didn't Java include operator overloading?

Isn't Complex a, b, c; a = b + c; much simpler than Complex a, b, c; a=b.add(c);?

Is there a known reason for this, valid arguments for not allowing operator overloading? Is the reason arbitrary, or lost to time?

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closed as not constructive by bmargulies, todofixthis, razlebe, Ash Burlaczenko, Yi Jiang Jun 9 '12 at 23:39

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2  
May also read Why Java does not support Operator overloading –  zzzz Nov 28 '12 at 9:46

13 Answers 13

up vote 29 down vote accepted

Assuming that the SCdF wanted to overwrite the previous value of the object refered to by 'a', then a member function would have to be invoked.

    Complex a, b, c;
    ..
    a = b.add(c)

In C++, this expression tells the compiler to create 3 objects on the stack, perform addition, and copy the resultant value from the temporary object into the existing object 'a'.

However, in java, operator= doesn't perform value copy for reference types, and users can only create new reference types, not value types. So for a user defined type named 'Complex', assignment means to copy a reference to an existing value.

consider instead:

b.set(1, 0); // initialize to real number '1'
a = b; 
b.set(2, 0);
assert( !a.Equals(b) );

In C++, this copies the value, so the comparison will result not-equal. In Java, operator= performs reference copy, so 'a' and 'b' are now refering to the same value. As a result, the comparison will produce 'equal', since the object will compare equal to itself.

The difference between copies and references only adds to the confusion of operator overloading. As Sebastian mentioned, Java and C# both have to deal with value and reference equality separately -- operator+ would likely deal with values and objects, but operator= is already implemented to deal with references.

In C++, you should only be dealing with one kind of comparison at a time, so it can be less confusing. For example, on Complex, operator= and operator== are both working on values -- copying values and comparing values respectively.

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Just FYI, I didn't ask this question, I only edited the tags. Click the time (it currenty say 'an hour ago') above my name for more info-- It looks like Rengolin (stackoverflow.com/users/14067/rengolin) asked the question. –  SCdF Sep 16 '08 at 23:16
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It's pretty simple really... Just do like Python and have no overloaded assignment. –  L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Jun 5 '10 at 14:32
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This answer doesn't answer the question at all. You're simply harping on java's use of the equals sign. If b+C returned a new Complex, then a = b+c would be perfectly valid, and yes much simpler to read. Even if you wanted to modify a in place, a.set(b+c) is a ton simpler to read - especially when the arithmetic is any more than trivial: a.set((a*b + b*c)/5) or a = a.multiply(b).add(b.multiply(c)).divide(5). Your choice.. –  B T Jun 24 '10 at 20:58
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Or I guess.. not your choice, as the case may be –  B T Jun 24 '10 at 21:07
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In C++, Expression Templates solve the problem of the extra copy. Pretty much all major arithmetic libraries use this technique for this very reason. Also, this doesn't address the question, since a = b + c is just syntactic sugar for a.foo(b.bar(c)), which is really the initial observation in the question. –  Kaz Dragon Sep 22 '10 at 8:45

There are a lot of posts complaining about operator overloading.

I felt I had to clarify the "operator overloading" concepts, offering an alternative viewpoint on this concept.

Code obfuscating?

This argument is a fallacy.

Obfuscating is possible in all languages...

It is as easy to obfuscate code in C or Java through functions/methods than it is in C++ through operator overloads:

// C++
T operator + (const T & a, const T & b) // add ?
{
   T c ;
   c.value = a.value - b.value ; // subtract !!!
   return c ;
}

// Java
static T add (T a, T b) // add ?
{
   T c = new T() ;
   c.value = a.value - b.value ; // subtract !!!
   return c ;
}

/* C */
T add (T a, T b) /* add ? */
{
   T c ;
   c.value = a.value - b.value ; /* subtract !!! */
   return c ;
}

...Even in Java's standard interfaces

For another example, let's see the Cloneable interface in Java:

You are supposed to clone the object implementing this interface. But you could lie. And create a different object. In fact, this interface is so weak you could return another type of object altogether, just for the fun of it:

class MySincereHandShake implements Cloneable
{
    public Object clone()
    {
       return new MyVengefulKickInYourHead() ;
    }
}

As the Cloneable interface can be abused/obfuscated, should it be banned on the same grounds C++ operator overloading are supposed to be?

We could overload the toString() method of a MyComplexNumber class to have it return the stringified hour of the day. Should the toString() overloading be banned, too? We could sabotage MyComplexNumber.equals to have it return a random value, modify the operands... etc. etc. etc..

In Java, as in C++, or whatever language, the programmer must respect a minimum of semantics when writing code. This means implementing a add function that adds, and Cloneable implementation method that clones, and a ++ operator than increments.

What's obfuscating anyway?

Now that we know that code can be sabotaged even through the pristine Java methods, we can ask ourselves about the real use of operator overloading in C++?

Clear and natural notation: methods vs. operator overloading?

We'll compare below, for different cases, the "same" code in Java and C++, to have an idea of which kind of coding style is clearer.

Natural comparisons:

// C++ comparison for built-ins and user-defined types
bool    isEqual          = A == B ;
bool    isNotEqual       = A != B ;
bool    isLesser         = A <  B ;
bool    isLesserOrEqual  = A <= B ;

// Java comparison for user-defined types
boolean isEqual          = A.equals(B) ;
boolean isNotEqual       = ! A.equals(B) ;
boolean isLesser         = A.comparesTo(B) < 0 ;
boolean isLesserOrEqual  = A.comparesTo(B) <= 0 ;

Please note that A and B could be of any type in C++, as long as the operator overloads are provided. In Java, when A and B are not primitives, the code can become very confusing, even for primitive-like objects (BigInteger, etc.)...

Natural array/container accessors and subscripting:

// C++ container accessors, more natural
value        = myArray[25] ;         // subscript operator
value        = myVector[25] ;        // subscript operator
value        = myString[25] ;        // subscript operator
value        = myMap["25"] ;         // subscript operator
myArray[25]  = value ;               // subscript operator
myVector[25] = value ;               // subscript operator
myString[25] = value ;               // subscript operator
myMap["25"]  = value ;               // subscript operator

// Java container accessors, each one has its special notation
value        = myArray[25] ;         // subscript operator
value        = myVector.get(25) ;    // method get
value        = myString.charAt(25) ; // method charAt
value        = myMap.get("25") ;     // method get
myArray[25]  = value ;               // subscript operator
myVector.set(25, value) ;            // method set
myMap.set("25", value) ;             // method set

In Java, we see that for each container to do the same thing (access its content through an index or identifier), we have a different way to do it, which is confusing.

In C++, each container uses the same way to access its content, thanks to operator overload.

Natural advanced types manipulation

The examples below use a Matrix object, found using the first links found on Google for "Java Matrix object" and "c++ Matrix object":

// C++ YMatrix matrix implementation on CodeProject
// http://www.codeproject.com/KB/architecture/ymatrix.aspx
// A, B, C, D, E, F are Matrix objects;
E =  A * (B / 2) ;
E += (A - B) * (C + D) ;
F =  E ;                  // deep copy of the matrix

// Java JAMA matrix implementation (seriously...)
// http://math.nist.gov/javanumerics/jama/doc/
// A, B, C, D, E, F are Matrix objects;
E = A.times(B.times(0.5)) ;
E.plusEquals(A.minus(B).times(C.plus(D))) ;
F = E.copy() ;            // deep copy of the matrix

And this is not limited to matrices. The BigInteger and BigDecimal classes of Java suffer from the same confusing verbosity, whereas their equivalent in C++ are as clear as built-in types.

Natural iterators:

// C++ Random Access iterators
++it ;                  // move to the next item
--it ;                  // move to the previous item
it += 5 ;               // move to the next 5th item (random access)
value = *it ;           // gets the value of the current item
*it = 3.1415 ;          // sets the value 3.1415 to the current item
(*it).foo() ;           // call method foo() of the current item

// Java ListIterator<E> "bi-directional" iterators
value = it.next() ;     // move to the next item & return the value
value = it.previous() ; // move to the previous item & return the value
it.set(3.1415) ;        // sets the value 3.1415 to the current item

Natural functors:

// C++ Functors
myFunctorObject("Hello World", 42) ;

// Java Functors ???
myFunctorObject.execute("Hello World", 42) ;

Text concatenation:

// C++ stream handling (with the << operator)
                    stringStream   << "Hello " << 25 << " World" ;
                    fileStream     << "Hello " << 25 << " World" ;
                    outputStream   << "Hello " << 25 << " World" ;
                    networkStream  << "Hello " << 25 << " World" ;
anythingThatOverloadsShiftOperator << "Hello " << 25 << " World" ;

// Java concatenation
myStringBuffer.append("Hello ").append(25).append(" World") ;

Ok, in Java you can use MyString = "Hello " + 25 + " World" ; too... But, wait a second: This is operator overloading, isn't it? Isn't it cheating???

:-D

Generic code?

The same generic code modifying operands should be usable both for built-ins/primitives (which have no interfaces in Java), standard objects (which could not have the right interface), and user-defined objects.

For example, calculating the average value of two values of arbitrary types:

// C++ primitive/advanced types
template<typename T>
T getAverage(const T & p_lhs, const T & p_rhs)
{
   return (p_lhs + p_rhs) / 2 ;
}

int     intValue     = getAverage(25, 42) ;
double  doubleValue  = getAverage(25.25, 42.42) ;
complex complexValue = getAverage(cA, cB) ; // cA, cB are complex
Matrix  matrixValue  = getAverage(mA, mB) ; // mA, mB are Matrix

// Java primitive/advanced types
// It won't really work in Java, even with generics. Sorry.

Discussing operator overloading

Now that we have seen fair comparisons between C++ code using operator overloading, and the same code in Java, we can now discuss "operator overloading" as a concept.

Operator overloading existed since before computers

Even outside of computer science, there are operator overloading: For example, in mathematics, operators like +, -, *, etc. are overloaded.

Indeed, the signification of +, -, *, etc. changes depending on the types of the operands (numerics, vectors, quantum wave functions, matrices, etc.).

Most of us, as part of our science courses, learned multiple significations for operators, depending on the types of the operands. Did we find them confusing, them?

Operator overloading depends on its operands

This is the most important part of operator overloading: Like in mathematics, or in physics, the operation depends on its operands' types.

So, know the type of the operand, and you will know the effect of the operation.

Even C and Java have (hard-coded) operator overloading

In C, the real behavior of an operator will change according to its operands. For example, adding two integers is different than adding two doubles, or even one integer and one double. There is even the whole pointer arithmetic domain (without casting, you can add to a pointer an integer, but you cannot add two pointers...).

In Java, there is no pointer arithmetics, but someone still found string concatenation without the + operator would be ridiculous enough to justify an exception in the "operator overloading is evil" creed.

It's just that you, as a C (for historical reasons) or Java (for personal reasons, see below) coder, you can't provide your own.

In C++, operator overloading is not optional...

In C++, operator overloading for built-in types is not possible (and this is a good thing), but user-defined types can have user-defined operator overloads.

As already said earlier, in C++, and to the contrary to Java, user-types are not considered second-class citizens of the language, when compared to built-in types. So, if built-in types have operators, user types should be able to have them, too.

The truth is that, like the toString(), clone(), equals() methods are for Java (i.e. quasi-standard-like), C++ operator overloading is so much part of C++ that it becomes as natural as the original C operators, or the before mentioned Java methods.

Combined with template programming, operator overloading becomes a well known design pattern. In fact, you cannot go very far in STL without using overloaded operators, and overloading operators for your own class.

...but it should not be abused

Operator overloading should strive to respect the semantics of the operator. Do not subtract in a + operator (as in "do not subtract in a add function", or "return crap in a clone method").

Cast overloading can be very dangerous because they can lead to ambiguities. So they should really be reserved for well defined cases. As for && and ||, do not ever overload them unless you really know what you're doing, as you'll lose the the short circuit evaluation that the native operators && and || enjoy.

So... Ok... Then why it is not possible in Java?

Because James Gosling said so:

I left out operator overloading as a fairly personal choice because I had seen too many people abuse it in C++.

James Gosling. Source: http://www.gotw.ca/publications/c_family_interview.htm

Please compare Gosling's text above with Stroustrup's below:

Many C++ design decisions have their roots in my dislike for forcing people to do things in some particular way [...] Often, I was tempted to outlaw a feature I personally disliked, I refrained from doing so because I did not think I had the right to force my views on others.

Bjarne Stroustrup. Source: The Desing and Evolution of C++ (1.3 General Background)

Would operator overloading benefit Java?

Some objects would greatly benefit from operator overloading (concrete or numerical types, like BigDecimal, complex numbers, matrices, containers, iterators, comparators, parsers etc.).

In C++, you can profit from this benefit because of Stroustrup's humility. In Java, you're simply screwed because of Gosling's personal choice.

Could it be added to Java?

The reasons for not adding operator overloading now in Java could be a mix of internal politics, allergy to the feature, distrust of developers (you know, the saboteur ones that seem to haunt Java teams...), compatibility with the previous JVMs, time to write a correct specification, etc..

So don't hold your breath waiting for this feature...

But they do it in C#!!!

Yeah...

While this is far from being the only difference between the two languages, this one never fails to amuse me.

Apparently, the C# folks, with their "every primitive is a struct, and a struct derives from Object", got it right at first try.

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21  
This is an excellent answer. I disagree with it, but it's still an excellent answer. I think the problems that are possible with bad overloads exceed the value of the good overloads. –  Douglas Leeder Oct 19 '08 at 20:25
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subtract, not substract –  Eric Oct 18 '09 at 18:42
15  
@Douglas Leeder : Thanks! Operator overloading is like OOP. The first time you learn to do it, you write overloads everywhere as you would put base classes and inheritance everywhere (like, sweet irony, the Java API). But this passes quite fast and then you appreciate the possibility all the while not abusing it. My own 10-years+ experience about C++ is that the number of bad overloads I saw both in my code and code from other coders is so low I believe I could count them on one hand. And this is a lot less than the number of overall bugs with sprintf, strcat, memset and buffer overruns. –  paercebal Nov 27 '10 at 10:18
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@Douglas Leeder : I believe, after discussing about that in another SO question, that the gap between "lovers" and "haters" of operator overload is probably caused by a difference in their approach of the code: "Haters" are more "functions are what matters", meaning that they expect a function to do one thing, and one thing only. Thus operators should work as designed by the language. "Lovers" are more about "objects should behave", meaning that they accept more readily that function (and thus, operators) can change their behaviour according to the type of their parameters. –  paercebal Nov 27 '10 at 20:13
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Epic answer. One of the most qualified debunks I've ever read. –  phresnel Aug 18 '11 at 10:47

James Gosling likened designing Java to the following:

"There's this principle about moving, when you move from one apartment to another apartment. An interesting experiment is to pack up your apartment and put everything in boxes, then move into the next apartment and not unpack anything until you need it. So you're making your first meal, and you're pulling something out of a box. Then after a month or so you've used that to pretty much figure out what things in your life you actually need, and then you take the rest of the stuff -- forget how much you like it or how cool it is -- and you just throw it away. It's amazing how that simplifies your life, and you can use that principle in all kinds of design issues: not do things just because they're cool or just because they're interesting."

You can read the context of the quote here

Basically operator overloading is great for a class that models some kind of point, currency or complex number. But after that you start running out of examples fast.

Another factor was the abuse of the feature in C++ by developers overloading operators like '&&', '||', the cast operators and of course 'new'. The complexity resulting from combining this with pass by value and exceptions is well covered in the Exceptional C++ book.

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Could you provide a code example of "the complexity of operator overloading combined with pass-by-value and exceptions"? Despite a few years playing with the language, and owning and having read all effective/exceptional books on C++, I fail to understand what you mean by that. –  paercebal Jan 31 '11 at 23:56
20  
What works for James Gosling isn't going to work for everyone. He's incredibly shortsighted for extrapolating his "interesting" packing experiment to mean "Throw away everything in the world that I don't need, so no one can use that stuff." He clearly doesn't know what I need or use. –  B T Mar 16 '11 at 0:03
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@B T : Most enlightning is Gosling's viewpoint when compared to Stroustrup's viewpoint on this issue: Many C++ design decisions have their roots in my dislike for forcing people to do things in some particular way [...] Often, I was tempted to outlaw a feature I personally disliked, I refrained from doing so because I did not think I had the right to force my views on others. (B. Stroustrup). –  paercebal Jul 19 '11 at 19:26
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@Software Monkey : "C++, widely reviled vs. the other, Java, widely liked" This is marketing hype. Remember that C++ grew alone, whereas Java (and .NET) profited from marketing bulldozers. Doesn't it seem strange that for a "widely liked language", Java is limited to server applications, whereas "widely reviled" (probably by Java developers and managers wanting to lower the cost of code production) C++ goes from very-high-performance servers to high performance games? [...] –  paercebal Jul 23 '11 at 20:26
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@Hassan : Each language has its hacks, Java's generics being one great example of that. Now, about I'd like them to go have a look at some C++ code out there that is hideously put together with weird hacks and "exceptional" features of the language : Bad programmers will write bad code no matter the language. Just try to emulate a "pass-by-reference" for function parameters in Java to have an idea. I've seen the code, and laughed so hard it hurt. This is the kind of things Gosling didn't use, thus, needed horrible hacks to have in Java, yet, exists natively, at zero cost, in both C# and C++. –  paercebal Oct 17 '12 at 9:03

Check out Boost.Units: link text

It provides zero-overhead Dimensional analysis through operator overloading. How much clearer can this get?

quantity<force>     F = 2.0*newton;
quantity<length>    dx = 2.0*meter;
quantity<energy>    E = F * dx;
std::cout << "Energy = " << E << endl;

would actually output "Energy = 4 J" which is correct.

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"How exactly if complicates maintenance and where on earth does this obfuscate code?" –  Mooing Duck May 21 '12 at 22:31

I think this may have been a conscious design choice to force developers to create functions whose names clearly communicate their intentions. In C++ developers would overload operators with functionality that would often have no relation to the commonly accepted nature of the given operator, making it nearly impossible to determine what a piece of code does without looking at the definition of the operator.

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3  
In C++ developers would overload operators with functionality that would often have no relation to the commonly accepted nature of the given operator : This is a gratuitous assertion. I'm a professionnal C++ developer since 12 years, and I rarely encountered this issue. In fact, the most bugs and design errors I saw in C++ were in the C-style code (void *, casts, etc.) –  paercebal Jun 10 '12 at 20:47
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-1. Every variable you assign is a symbol, just like the arithmetic operator symbols. Whether you use a phrase to name that variable, a single word, or a single letter, is your (or your team's) decision. Who is to say what is meaningful and what is not? The answer is you, the programmer. Within pure mathematics, multiplication between matrices means something different to multiplication between two numbers in basic arithmetic. Yet we use the same symbols for both types of multiplication. –  Nick Wiggill Jul 7 '12 at 14:10
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@paercebal: The assertion is unfortunately correct. You have to look no farther than IOstreams to see it in action. Thankfully most developers are more circumspect about inventing new semantics for existing operators. –  Ben Voigt Feb 3 at 6:35
    
@BenVoigt : I disagree. iostream's use of operator << is both well known since 30 years, and visually easier to understand (e.g. output << my_value ;) than its C counterpart ('my_int << my_other_int ;' which I can't even describe what it exactly does without getting my K&R). I believe the answer is wrong, not because it is false, but because it implies only operators can be misused that way. What user says, in essence, is that we could code a add functions that isn't about addition. But Java's Vector.add clearly uses the add for insertion. Should add be forbidden, too? [...] –  paercebal Feb 8 at 20:12
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@BenVoigt : [...] And I'm not even mentioning the fact the add function could be really really misused (like doing a multiplication, or acquiring a mutex)... The abuse mentioned by user14128 is not limited to operators, but there is some kind pathological fear about operator overloading that I believe comes from the earlier days of C vs. C++, a fear that went unmodified right into Java, but thankfully, didn't go into C#... In the end, respecting semantics and writing clear functions/operators is the developer's job. Not the language's. –  paercebal Feb 8 at 20:15

Groovy has operator overloading, and runs in the JVM. If you don't mind the performance hit (which gets smaller everyday). It's automatic based on method names. e.g., '+' calls the 'plus(argument)' method.

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I wish all syntax-heavy languages with operator overloading would have used that technique. I've never understood why they have to invent a special version of method naming and lookup. Stroustrup doesn't mention any alternatives in D&EC++. The C# team took the right approach with Linq syntax (where ... becomes .Where(i => ... ). If only they'd done the same with arithmetic operators, so many things would be simpler and more powerful. Java has the advantage of a clean slate and could get this right (though for religous reasons, it probably never will). –  Daniel Earwicker Mar 22 '11 at 10:37

Technically, there is operator overloading in every programming language that can deal with different types of numbers, e.g. integer and real numbers. Explanation: The term overloading means that there are simply several implementations for one function. In most programming languages different implementations are provided for the operator +, one for integers, one for reals, this is called operator overloading.

Now, many people find it strange that Java has operator overloading for the operator + for adding strings together, and from a mathematical standpoint this would be strange indeed, but seen from a programming language's developer's standpoint, there is nothing wrong with adding builtin operator overloading for the operator + for other classes e.g. String. However, most people agree that once you add builtin overloading for + for String, then it is generally a good idea to provide this functionality for the developer as well.

A completely disagree with the fallacy that operator overloading obfuscates code, as this is left for the developer to decide. This is naïve to think, and to be quite honest, it is getting old.

+1 for adding operator overloading in Java 8.

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Well you can really shoot yourself in the foot with operator overloading. It's like with pointers people make stupid mistakes with them and so it was decided to take the scissors away.

At least I think that's the reason. I'm on your side anyway. :)

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But pointers :( –  Joe Z. Feb 28 '13 at 13:03

The Java designers decided that operator overloading was more trouble than it was worth. Simple as that.

In a language where every object variable is actually a reference, operator overloading gets the additional hazard of being quite illogical - to a C++ programmer at least. Compare the situation with C#'s == operator overloading and Object.Equals and Object.ReferenceEquals (or whatever it's called).

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Saying that operator overloading leads to logical errors of type that operator does not match the operation logic, it's like saying nothing. The same type of error will occur if function name is inappropriate for operation logic - so what's the solution: drop the ability of function usage!? This is a comical answer - "Inappropriate for operation logic", every parameter name, every class, function or whatever can be logicly inappropriate. I think that this option should be available in respectable programing language, and those that think that it's unsafe - hey no bothy says you have to use it. Lets take the C#. They drooped the pointers but hey - there is 'unsafe code' statement - program as you like on your own risk.

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Sometimes it would be nice to have operator overloading, friend classes and multiple inheritance.

However I still think it was a good decision. If Java would have had operator overloading then we could never be sure of operator meanings without looking through source code. At present that's not necessary. And I think your example of using methods instead of operator overloading is also quite readable. If you want to make things more clear you could always add a comment above hairy statements.

// a = b + c
Complex a, b, c; a = b.add(c);
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5  
Of course, as mentioned elsewhere you can never be sure of the meaning of the add function either. –  Eclipse Mar 23 '09 at 3:37
    
True, I still find it comforting to know that at least my operators are hard coded. Of course, having the features and using them sensibly would only do us good. The problem is that it's hard to know if someone has used them sensibly. And that you agree on the definition of sensibly. :-) –  user14070 Mar 24 '09 at 10:19

Assuming Java as the implementation language then a, b, and c would all be references to type Complex with initial values of null. Also assuming that Complex is immutable as the mentioned BigInteger and similar immutable BigDecimal, I'd I think you mean the following, as you're assigning the reference to the Complex returned from adding b and c, and not comparing this reference to a.

Isn't :

Complex a, b, c; a = b + c;

much simpler than:

Complex a, b, c; a = b.add(c);
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Am I? ;) Equals can both mean assignment or comparison, but = is always assignment and == is always comparison. Names can introduce big sources of errors themselves. –  rengolin Sep 16 '08 at 22:39

Some people say that operator overloading in Java would lead to obsfuscation. Have those people ever stopped to look at some Java code doing some basic maths like increasing a financial value by a percentage using BigDecimal ? .... the verbosity of such an exercise becomes its own demonstration of obsfuscation. Ironically, adding operator overloading to Java would allow us to create our own Currency class which would make such mathematical code elegant and simple (less obsfuscated).

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protected by Robert Harvey Jun 9 '12 at 22:16

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