We noticed that lots of bugs in our software developed in C# (or Java) cause a NullReferenceException.

Is there a reason why "null" has even been included in the language?

After all, if there were no "null", I would have no bug, right?

In other words, what feature in the language couldn't work without null?

  • @blue.tuxedo.myopenid.com: Not an essential feature? Try programming against a database without it. You'll need to handle null, even if you're just going to translate it to something else.
    – CodeRedick
    Oct 7, 2008 at 12:32
  • 8
    qconlondon.com/london-2009/presentation/… - Tony Hoare, inventor of NULL ( as a quick hack in Algol ), gave a talk on why it's a bad idea. If Turing award winning demi-gods can question it, why are people saying that the answer is obvious? Aug 18, 2009 at 23:58

25 Answers 25


Anders Hejlsberg, "C# father", just spoke about that point in his Computerworld interview:

For example, in the type system we do not have separation between value and reference types and nullability of types. This may sound a little wonky or a little technical, but in C# reference types can be null, such as strings, but value types cannot be null. It sure would be nice to have had non-nullable reference types, so you could declare that ‘this string can never be null, and I want you compiler to check that I can never hit a null pointer here’.

50% of the bugs that people run into today, coding with C# in our platform, and the same is true of Java for that matter, are probably null reference exceptions. If we had had a stronger type system that would allow you to say that ‘this parameter may never be null, and you compiler please check that at every call, by doing static analysis of the code’. Then we could have stamped out classes of bugs.

Cyrus Najmabadi, a former software design engineer on the C# team (now working at Google) discuss on that subject on his blog: (1st, 2nd, 3rd, 4th). It seems that the biggest hindrance to the adoption of non-nullable types is that notation would disturb programmers’ habits and code base. Something like 70% of references of C# programs are likely to end-up as non-nullable ones.

If you really want to have non-nullable reference type in C# you should try to use Spec# which is a C# extension that allow the use of "!" as a non-nullable sign.

static string AcceptNotNullObject(object! s)
    return s.ToString();
  • 1
    Strangely enough, I blogged about a dirty hack to implement some of this just last night: msmvps.com/blogs/jon_skeet/archive/2008/10/06/… It's really not a nice solution, with various gotchas, but interesting nonetheless (IMO!).
    – Jon Skeet
    Oct 7, 2008 at 12:56
  • 12
    Actually all types should be implicit non-nullable, even reference types. Nullable types (value types as well as reference types) should be explicitly marked with "?". Oct 9, 2008 at 7:06
  • 5
    Small correction: Cyrus Najmabadi is no longer on the C# team. I didn't realise this until I got an internal email from him today, here at Google :)
    – Jon Skeet
    Oct 15, 2008 at 10:01

Nullity is a natural consequence of reference types. If you have a reference, it has to refer to some object - or be null. If you were to prohibit nullity, you would always have to make sure that every variable was initialized with some non-null expression - and even then you'd have issues if variables were read during the initialization phase.

How would you propose removing the concept of nullity?

  • 4
    Its not fundamental. You could require any ref type variable to be initialized just as with (non-nullable) value types. It would be a hassle though.
    – JacquesB
    Oct 7, 2008 at 12:26
  • 1
    Suppose you require any ref type variable to be initialized. Suppose this is a static field, and you call a static method to initialize the field - what if that method looks at another field which hasn't been initialized yet? What value would it have?
    – Jon Skeet
    Oct 7, 2008 at 12:32
  • 2
    In short: there are probably ways around it, but they would become increasingly labyrinthine as you looked at edge cases.
    – Jon Skeet
    Oct 7, 2008 at 12:32
  • 10
    In pure functional programming, values can only be specified via function parameters and expression evaluations (including function calls), which all need to be specified before they're used and only exist for the scope their defined unless captured in a closure. Oct 7, 2008 at 14:59
  • 3
    @Jon, there are 2 concepts under the name "nullity": uninitialized and optional. This is what makes it are carried-over mistake from Algol.
    – bltxd
    Oct 28, 2010 at 6:52

Like many things in object-oriented programming, it all goes back to ALGOL. Tony Hoare just called it his "billion-dollar mistake." If anything, that's an understatement.

Here is a really interesting thesis on how to make nullability not the default in Java. The parallels to C# are obvious.

  • Kotlin is null safe. It's more of a design choice of the language that forces you to make sure your refs (or ptrs) are referencing something. Feb 3, 2017 at 5:44

Null in C# is mostly a carry-over from C++, which had pointers that didn't point to anything in memory (or rather, adress 0x00). In this interview, Anders Hejlsberg says that he would've like to have added non-nullable reference types in C#.

Null also has a legitimate place in a type system, however, as something akin to the bottom type (where object is the top type). In lisp, the bottom type is NIL and in Scala it is Nothing.

It would've been possible to design C# without any nulls but then you'd have to come up with an acceptable solution for the usages that people usually have for null, such as unitialized-value, not-found, default-value, undefined-value, and None<T>. There would've probably been less adoption amongst C++ and Java programmers if they did succeed in that anyhow. At least until they saw that C# programs never had any null pointer exceptions.

  • 4
    Not to mention that all you'd really be doing is renaming null.
    – CodeRedick
    Oct 7, 2008 at 12:34
  • 1
    You don't have to replace the "null" keyword with another single keyword. You can constrain what "null" means and then add other keywords to mean different things. This can reduce null reference errors. Even JavaScript has "undefined" in addition to "null". VB6 had an "Empty", "Nothing" AND "Null" Oct 7, 2008 at 14:56
  • Downvoted. You are confused between the 2 usages of null: "uninitialized" is useless (to quote jalf "meaningless states should not be representable") and distinct from "optionality" which is required.
    – bltxd
    Oct 28, 2010 at 6:35
  • @bltxd: ...what? Could you please elaborate
    – sova
    Nov 9, 2010 at 6:43
  • 2
    I'm just amazed that some people (see Telos above) still confuse None and Null.I mostly disagree with the 2nd paragraph: Null has NO legitimate place in a modern type system. Null is a single value that is compatible with every reference type, None<T> is not since it is parametric. That's a huge difference. The downvote is maybe a bit harsh, but the poster seems to imply that some people have a use for "uninitialized-value" which is wrong.
    – bltxd
    Nov 9, 2010 at 7:16

Removing null wouldn't solve much. You would need to have a default reference for most variables that is set on init. Instead of null-reference exceptions you would get unexpected behaviour because the variable is pointing to the wrong objects. At least null-references fail fast instead of causing unexpected behaviour.

You can look at the null-object pattern for a way to solve part of this problem

  • 3
    I call this nonsense. The introduction of a non-nullable reference type would let you choose which one you need. OCaml and Haskell have non-nullable references and yet are applicable to all problem domains and don't suffer from NullReferenceException at all...
    – bltxd
    Oct 28, 2010 at 6:28
  • OCaml and Haskell are completely different from C# and Java based on different ideas. Just removing null from C# or Java will not make those languages behave more like a pure functional language like Haskell.
    – Mendelt
    Nov 4, 2010 at 18:09

Null is an extremely powerful feature. What do you do if you have an absence of a value? It's NULL!

One school of thought is to never return null, another is to always. For example, some say you should return a valid but empty object.

I prefer null as to me it's a truer indication of what it actually is. If I can't retrieve an entity from my persistence layer, I want null. I don't want some empty value. But that's me.

It is especially handy with primitives. For example, if I have true or false, but it's used on a security form, where a permission can be Allow, Deny, or not set. Well, I want that not set to be null. So I can use bool?

There are a lot more I could go on about, but I will leave it there.

  • 2
    What you want in the Allow/Deny/NotSet situation is an enumeration, not something that includes null. Oct 7, 2008 at 11:41
  • Allow = True, Deny = False, Not Set = No Value hence NULL. That was one simple example. Yes, No, No Data, True False Undecided, etc. List can go on and on, its a perfect fit for nullable bool rather than an enum. If I had Allow/Deny/IDontKNow/WhoCares/IAmHungry/NotSet, then ya i would use enum.
    – mattlant
    Oct 7, 2008 at 14:53
  • You'll find that null is possibly the worst way to build a 'no-information' element into data. Oct 8, 2008 at 19:24
  • 1
    In the example, what if there's a bug in the code and the programmer just forgot to assign a value to the Allow/Deny flag? In this case, the value of null is a mistake, it doesn't mean 'NOT SET'.
    – Tim Frey
    Jan 28, 2009 at 17:55
  • Downvoted. Null is really 2 concepts/features: being able to represent invalid program states (useless imo), being able to represent optionality (mandatory). As such it's not powerfull, it's stupid.
    – bltxd
    Oct 28, 2010 at 6:56

After all, if there were no "null", I would have no bug, right?

The answer is NO. The problem is not that C# allows null, the problem is that you have bugs which happen to manifest themselves with the NullReferenceException. As has been stated already, nulls have a purpose in the language to indicate either an "empty" reference type, or a non-value (empty/nothing/unknown).

  • 3
    Removing null from the language would reduce probability of certain classes of bugs in the same way that removing pointer types reduces probability of certain classes of bugs. If you realy needed null, you could use an unsafe block. Value types exist just fine without being nullable. Oct 7, 2008 at 15:03
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    The point that pro3carp3 is trying to make is that the majority of null bugs are related to using uninitialized variables as if they were prepared for use. Non-nullable types really only solve the case of "I don't care what the value is I just want to run this method", while usually you do care.
    – Guvante
    Oct 8, 2008 at 19:15
  • Downvoted. Your premise is that you need nulls to represent uninitialized refs. This is true if you really insist to allow uninitialized refs in your language. But the real question is whether this makes senses and the answer is clearly no. This is akin to require to be able to represent invalid program states.
    – bltxd
    Oct 28, 2010 at 6:45
  • bltxd: Your comment represents a naive view. Invalid program states do happen for reasons beyond the programmers control such as file system errors, Internet connection problems, etc. It does make sense to use Nulls in these situations. It is also invaluable in representing unknown, invalid, and empty database fields.
    – pro3carp3
    Nov 10, 2010 at 4:31
  • Please have a look at OCaml or Haskell bindings for PostgreSQL. They manage everything you say, without a pervasive null reference. In short existing practice proves you wrong.
    – bltxd
    Nov 13, 2010 at 1:38

Null do not cause NullPointerExceptions...

Programers cause NullPointerExceptions.

Without nulls we are back to using an actual arbitrary value to determine that the return value of a function or method was invalid. You still have to check for the returned -1 (or whatever), removing nulls will not magically solve lazyness, but mearly obfuscate it.

  • just noticed the downvote... though it's kinna missing the point of the question to begin with as it was specifically aimed at C# and java. That said I will check them out wouldn't wanna miss the key to heaven !
    – Newtopian
    Jun 25, 2014 at 0:06

The question may be interpreted as "Is it better to have a default value for each referance type (like String.Empty) or null?". In this prespective I would prefer to have nulls, because;

  • I would not like to write a default constructor for each class I write.
  • I would not like some unneccessary memory to be allocated for such default values.
  • Checking whether a referance is null is rather cheaper than value comparisons.
  • It is highly possible to have more bugs that are harder to detect, instead of NullReferanceExceptions. It is a good thing to have such an exception which clearly indicates that I am doing (assuming) something wrong.

"Null" is included in the language because we have value types and reference types. It's probably a side effect, but a good one I think. It gives us a lot of power over how we manage memory effectively.

Why we have null? ...

Value types are stored on the "stack", their value sits directly in that piece of memory (i.e. int x = 5 means that that the memory location for that variable contains "5").

Reference types on the other hand have a "pointer" on the stack pointing to the actual value on the heap (i.e. string x = "ello" means that the memory block on the stack only contains an address pointing to the actual value on the heap).

A null value simply means that our value on the stack does not point to any actual value on the heap - it's an empty pointer.

Hope I explained that well enough.

  • Downvoted. See option types in languages of the ML family. In short, by making references non-nullable you don't lose any generality, you simply make your programs NullReferenceException free.
    – bltxd
    Oct 28, 2010 at 6:33

If you're getting a 'NullReferenceException', perhaps you keep referring to objects which no longer exist. This is not an issue with 'null', it's an issue with your code pointing to non-existent addresses.


There are situations in which null is a nice way to signify that a reference has not been initialized. This is important in some scenarios.

For instance:

MyResource resource;
  resource = new MyResource();
  // Do some work
  if (resource != null)

This is in most cases accomplished by the use of a using statement. But the pattern is still widely used.

With regards to your NullReferenceException, the cause of such errors are often easy to reduce by implementing a coding standard where all parameters a checked for validity. Depending on the nature of the project I find that in most cases it's enough to check parameters on exposed members. If the parameters are not within the expected range an ArgumentException of some kind is thrown, or a error result is returned, depending on the error handling pattern in use.

The parameter checking does not in itself remove bugs, but any bugs that occur are easier to locate and correct during the testing phase.

As a note, Anders Hejlsberg has mentioned the lack of non-null enforcement as one of the biggest mistakes in the C# 1.0 specification and that including it now is "difficult".

If you still think that a statically enforced non-null reference value is of great importance you could check out the spec# language. It is an extension of C# where non-null references are part of the language. This ensures that a reference marked as non-null can never be assigned a null reference.


One response mentioned that there are nulls in databases. That's true, but they are very different from nulls in C#.

In C#, nulls are markers for a reference that doesn't refer to anything.

In databases, nulls are markers for value cells that don't contain a value. By value cells, I generally mean the intersection of a row and a column in a table, but the concept of value cells could be extended beyond tables.

The difference between the two seems trivial, at first clance. But it's not.


Null as it is available in C#/C++/Java/Ruby is best seen as an oddity of some obscure past (Algol) that somehow survived to this day.

You use it in two ways:

  • To declare references without initializing them (bad).
  • To denote optionality (OK).

As you guessed, 1) is what causes us endless trouble in common imperative languages and should have been banned long ago, 2) is the true essential feature.

There are languages out there that avoid 1) without preventing 2).

For example OCaml is such a language.

A simple function returning an ever incrementing integer starting from 1:

let counter = ref 0;;
let next_counter_value () = (counter := !counter + 1; !counter);;

And regarding optionality:

type distributed_computation_result = NotYetAvailable | Result of float;;
let print_result r = match r with
    | Result(f) -> Printf.printf "result is %f\n" f
    | NotYetAvailable -> Printf.printf "result not yet available\n";;
  • 1
    1 is bad? Always, you say? What about in exception handling, when you want to see the value of a variable in the catch block? Pretty much need to declare it outside the try, and initialize it inside if the initialization could cause the exception!
    – CodeRedick
    Oct 7, 2008 at 12:39
  • If your variable construction failed, its value is null.
    – bltxd
    Oct 7, 2008 at 12:51
  • At least in Java, you have to declare references without initializing them: non-primitive fields of classes (initialized in constructor), objects that throw an exception at creation time that you need to use outside of the corresponding try/catch block, etc.
    – PhiLho
    Oct 7, 2008 at 13:14
  • @blue--And if there were no "null" value, there would be no way to indicate failure would there? Because without a null value, the variable would be garbage and it's not always possible to distinguish a non-null garbage value from a good value. Oct 7, 2008 at 13:16
  • @PhiLho: An object that threw an exception at construction time is never created. Of course, to use it afterwards you must use null, but you could also track its successful initialization with a boolean. As In essence, your logic does not require null, but it makes use of it.
    – bltxd
    Oct 7, 2008 at 14:21

I can't speak to your specific issue, but it sounds like the problem isn't the existence of null. Null exists in databases, you need some way to account for that in the application level. I don't think that's the only reason it exists in .net, mind you. But I figure it's one of the reasons.


I'm surprised no one has talked about databases for their answer. Databases have nullable fields, and any language which will be receiving data from a DB needs to handle that. That means having a null value.

In fact, this is so important that for basic types like int you can make them nullable!

Also consider return values from functions, what if you wanted to have a function divide a couple numbers and the denominator could be 0? The only "correct" answer in such a case would be null. (I know, in such a simple example an exception would likely be a better option... but there can be situations where all values are correct but valid data can produce an invalid or uncalculable answer. Not sure an exception should be used in such cases...)

  • 2
    Handling DB stuff means having null values. The big difference is that in C# you have null references. You division example where you don't throw an exception already exists (IEEE 754 floating point arithmetic) and it proves the "only" correct answer is not null references. IEEE 754 uses a null value (NaN - Not a Number). Dec 7, 2009 at 22:40

Besides ALL of the reasons already mentioned, NULL is needed when you need a placeholder for a not-yet created object. For example. if you have a circular reference between a pair of objects, then you need null since you cannot instantiate both simultaneously.

class A {
  B fieldb;

class B {
  A fielda;

A a = new A() // a.fieldb is null
B b = new B() { fielda = a } // b.fielda isnt
a.fieldb = b // now it isnt null anymore

Edit: You may be able to pull out a language that works without nulls, but it will definitely not be an object oriented language. For example, prolog doesn't have null values.

  • 1
    Pick an existing OO language like C#. Now require initialization of everything upon declaration/construction and use the null object pattern for anything you need to have null/undefined/invalid/default/empty/whatever values. Dec 7, 2009 at 22:31

If you create an object with an instance variable being a reference to some object, what value would you suggest has this variable before you assigned any object reference to it?

  • 1
    Lots of options. For example, the compiler could enforce that variables can't be used before they have been explicitly initialized. Or the compiler could use a default (parameterless) constructor and issue an error if no such constructor is found (like in C++)
    – Niki
    Oct 1, 2009 at 14:22

I propose:

  1. Ban Null
  2. Extend Booleans: True, False and FileNotFound

Commonly - NullReferenceException means that some method didn't like what it was handed and returned a null reference, which was later used without checking the reference before use.

That method could have thown some more detailed exception instead of returning null, which complies with the fail fast mode of thinking.

Or the method might be returning null as a convenience to you, so that you can write if instead of try and avoid the "overhead" of an exception.

  • Explicit nulling, though that is seldom necessary. Perhaps one can view it as a form of defensive programming.
  • Use it (or nullable(T) structure for non-nullables) as a flag to indicate a missing field when mapping fields from one data source (byte stream, database table) to an object. It can get very unwieldy to make a boolean flag for every possible nullable field, and it may be impossible to use sentinel values like -1 or 0 when all values in the range that field is valid. This is especially handy when there are many many fields.

Whether these are cases of use or abuse is subjective, but I use them sometimes.


Sorry for answering four years late, I am amazed that none of the answers so far have answered the original question this way:

Languages like C# and Java, like C and other languages before them, have null so that the programmer can write fast, optimized code by using pointers in an efficient way.

  • Low-level view

A little history first. The reason why null was invented is for efficiency. When doing low-level programming in assembly, there is no abstraction, you have values in registers and you want to make the most of them. Defining zero to be a not a valid pointer value is an excellent strategy to represent either an object or nothing.

Why waste most of the possible values of a perfectly good word of memory, when you can have a zero-memory-overhead, really fast implementation of the optional value pattern? This is why null is so useful.

  • High-level view.

Semantically, null is in no way necessary to programming languages. For example, in classic functional languages like Haskell or in the ML family, there is no null, but rather types named Maybe or Option. They represent the more high-level concept of optional value without being concerned in any way by what the generated assembly code will look like (that will be the compiler's job).

And this is very useful too, because it enables the compiler to catch more bugs, and that means less NullReferenceExceptions.

  • Bringing them together

In contrast to these very high-level programming languages, C# and Java allow a possible value of null for every reference type (which is another name for type that will end up being implemented using pointers).

This may seem like a bad thing, but what's good about it is that the programmer can use the knowledge of how it works under the hood, to create more efficient code (even though the language has garbage collection).

This is the reason why null still exists in languages nowadays: a trade-off between the need of a general concept of optional value and the ever-present need for efficiency.


The feature that couldn't work without null is being able to represent "the absence of an object".

The absence of an object is an important concept. In object-oriented programming, we need it in order to represent an association between objects that is optional: object A can be attached to an object B, or A might not have an object B. Without null we could still emulate this: for instance we could use a list of objects to associate B with A. That list could contain one element (one B), or be empty. This is somewhat inconvenient and doesn't really solve anything. Code which assumes that there is a B, such as aobj.blist.first().method() is going to blow up in a similar way to a null reference exception: (if blist is empty, what is the behavior of blist.first()?)

Speaking of lists, null lets you terminate a linked list. A ListNode can contain a reference to another ListNode which can be null. The same can be said about other dynamic set structures such as trees. Null lets you have an ordinary binary tree whose leaf nodes are marked by having child references that are null.

Lists and trees can be built without null, but they have to be circular, or else infinite/lazy. That would probably be regarded as an unacceptable constraint by most programmers, who would prefer to have choices in designing data structures.

The pains associated with null references, like null references arising accidentally due to bugs and causing exceptions, are partially a consequence of the static type system, which introduces a null value into every type: there is a null String, null Integer, null Widget, ...

In a dynamically typed language, there can be a single null object, which has its own type. The upshot of this is that you have all the representational advantages of null, plus greater safety. For instance if you write a method which accepts a String parameter, then you're guaranteed that the parameter will be a string object, and not null. There is no null reference in the String class: something that is known to be a String cannot be the object null. References do not have type in a dynamic language. A storage location such as a class member or function parameter contains a value which can be a reference to an object. That object has type, not the reference.

So these languages provide a clean, more or less matematically pure model of "null", and then the static ones turn it into somewhat of a Frankenstein's monster.


If a framework allows the creation of an array of some type without specifying what should be done with the new items, that type must have some default value. For types which implement mutable reference semantics (*) there is in the general case no sensible default value. I consider it a weakness of the .NET framework that there is no way to specify that a non-virtual function call should suppress any null check. This would allow immutable types like String to behave as value types, by returning sensible values for properties like Length.

(*) Note that in VB.NET and C#, mutable reference semantics may be implemented by either class or struct types; a struct type would implement mutable reference semantics by acting as a proxy for a wrapped instance of a class object to which it holds an immutable reference.

It would also be helpful if one could specify that a class should have non-nullable mutable value-type semantics (implying that--at minimum--instantiating a field of that type would create a new object instance using a default constructor, and that copying a field of that type would create a new instance by copying the old one (recursively handling any nested value-type classes).

It's unclear, however, exactly how much support should be built into the framework for this. Having the framework itself recognize the distinctions between mutable value types, mutable reference types, and immutable types, would allow classes which themselves hold references to a mixture of mutable and immutable types from outside classes to efficiently avoid making unnecessary copies of deeply-immutable objects.


Null is an essential requirement of any OO language. Any object variable that hasn't been assigned an object reference has to be null.

  • So nikie, would you care to explain to this ignorant old fool just what is wrong with my statement?
    – David Arno
    Oct 11, 2009 at 19:01
  • @David: basically null references are not an essential requirement of any OO language. One solution: require initialization of everything upon declaration/construction and use the null object pattern for anything you need to have null/undefined/invalid/default/empty/whatever values. Dec 7, 2009 at 22:30

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