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Value indicating that a referenced dataset is invalid or doesn't exist From Wikipedia, the free encyclopedia
In computing, a null pointer or null reference is a value saved for indicating that the pointer or reference does not refer to a valid object. Programs routinely use null pointers to represent conditions such as the end of a list of unknown length or the failure to perform some action; this use of null pointers can be compared to nullable types and to the Nothing value in an option type.
A null pointer should not be confused with an uninitialized pointer: a null pointer is guaranteed to compare unequal to any pointer that points to a valid object. However, in general, most languages do not offer such guarantee for uninitialized pointers. It might compare equal to other, valid pointers; or it might compare equal to null pointers. It might do both at different times; or the comparison might be undefined behaviour. Also, in languages offering such support, the correct use depends on the individual experience of each developer and linter tools. Even when used properly, null pointers are semantically incomplete, since they do not offer the possibility to express the difference between a "Not Applicable" value versus a "Not known" value or versus a "Future" value.
Because a null pointer does not point to a meaningful object, an attempt to access the data stored at that (invalid) memory location may cause a run-time error or immediate program crash. This is the null pointer error. It is one of the most common types of software weaknesses,[1] and Tony Hoare, who introduced the concept, has referred to it as a "billion dollar mistake".[2]
In C, two null pointers of any type are guaranteed to compare equal.[3] The preprocessor macro NULL
is defined as an implementation-defined null pointer constant in <stdlib.h>
,[4] which in C99 can be portably expressed as ((void *)0)
, the integer value 0
converted to the type void*
(see pointer to void type).[5] The C standard does not say that the null pointer is the same as the pointer to memory address 0, though that may be the case in practice. Dereferencing a null pointer is undefined behavior in C,[6] and a conforming implementation is allowed to assume that any pointer that is dereferenced is not null.
In practice, dereferencing a null pointer may result in an attempted read or write from memory that is not mapped, triggering a segmentation fault or memory access violation. This may manifest itself as a program crash, or be transformed into a software exception that can be caught by program code. There are, however, certain circumstances where this is not the case. For example, in x86 real mode, the address 0000:0000
is readable and also usually writable, and dereferencing a pointer to that address is a perfectly valid but typically unwanted action that may lead to undefined but non-crashing behavior in the application; if a null pointer is represented as a pointer to that address, dereferencing it will lead to that behavior. There are occasions when dereferencing a pointer to address zero is intentional and well-defined; for example, BIOS code written in C for 16-bit real-mode x86 devices may write the interrupt descriptor table (IDT) at physical address 0 of the machine by dereferencing a pointer with the same value as a null pointer for writing. It is also possible for the compiler to optimize away the null pointer dereference, avoiding a segmentation fault but causing other undesired behavior.[7]
In C++, while the NULL
macro was inherited from C, the integer literal for zero has been traditionally preferred to represent a null pointer constant.[8] However, C++11 introduced the explicit null pointer constant nullptr
and type nullptr_t
to be used instead.
In some programming language environments (at least one proprietary Lisp implementation, for example),[citation needed] the value used as the null pointer (called nil
in Lisp) may actually be a pointer to a block of internal data useful to the implementation (but not explicitly reachable from user programs), thus allowing the same register to be used as a useful constant and a quick way of accessing implementation internals. This is known as the nil
vector.
In languages with a tagged architecture, a possibly null pointer can be replaced with a tagged union which enforces explicit handling of the exceptional case; in fact, a possibly null pointer can be seen as a tagged pointer with a computed tag.
Programming languages use different literals for the null pointer. In Python, for example, a null value is called None
. In Pascal and Swift, a null pointer is called nil
. In Eiffel, it is called a void
reference.
Because a null pointer does not point to a meaningful object, an attempt to dereference (i.e., access the data stored at that memory location) a null pointer usually (but not always) causes a run-time error or immediate program crash. MITRE lists the null pointer error as one of the most commonly exploited software weaknesses.[9]
nil
represents a null pointer to the first address in memory which is also used to initialize managed variables. Dereferencing it raises an external OS exception which is mapped onto a Pascal EAccessViolation
exception instance if the System.SysUtils
unit is linked in the uses
clause.NullPointerException
(NPE), which can be caught by error handling code, but the preferred practice is to ensure that such exceptions never occur.nil
is a first class object. By convention, (first nil)
is nil
, as is (rest nil)
. So dereferencing nil
in these contexts will not cause an error, but poorly written code can get into an infinite loop.NullReferenceException
to be thrown. Although catching these is generally considered bad practice, this exception type can be caught and handled by the program.nil
object (which is a null pointer) without causing the program to be interrupted; the message is simply ignored, and the return value (if any) is nil
or 0
, depending on the type.[10]While we could have languages with no nulls, most do have the possibility of nulls so there are techniques to avoid or aid debugging null pointer dereferences.[12] Bond et al.[12] suggest modifying the Java Virtual Machine (JVM) to keep track of null propagation.
We have three levels of handling null references, in order of effectiveness:
1. languages with no null;
2. languages that can statically analyse code to avoid the possibility of null dereference at run time;
3. if null dereference can occur at run time, tools that aid debugging.
Pure functional languages are an example of level 1 since no direct access is provided to pointers and all code and data is immutable. User code running in interpreted or virtual-machine languages generally does not suffer the problem of null pointer dereferencing.[dubious – discuss]
Where a language does provide or utilise pointers which could become void, it is possible to avoid runtime null dereferences by providing compilation-time checking via static analysis or other techniques, with syntactic assistance from language features such as those seen in the Eiffel programming language with Void safety[13] to avoid null derefences, D,[14] and Rust.[15]
In some languages analysis can be performed using external tools, but these are weak compared to direct language support with compiler checks since they are limited by the language definition itself.
The last resort of level 3 is when a null reference occurs at run time, debugging aids can help.
As a rule of thumb, for each type of struct or class, define some objects representing some state of the business logic replacing the undefined behaviour on null. For example, "future" to indicate a field inside a structure that will not be available right now (but for which we know in advance that in the future it will be defined), "not applicable" to indicate a field in a non-normalized structure, "error", "timeout" to indicate that the field could not be initialized (probably stopping normal execution of the full program, thread, request or command).
In 2009, Tony Hoare stated[16][17] that he invented the null reference in 1965 as part of the ALGOL W language. In that 2009 reference Hoare describes his invention as a "billion-dollar mistake":
I call it my billion-dollar mistake. It was the invention of the null reference in 1965. At that time, I was designing the first comprehensive type system for references in an object oriented language (ALGOL W). My goal was to ensure that all use of references should be absolutely safe, with checking performed automatically by the compiler. But I couldn't resist the temptation to put in a null reference, simply because it was so easy to implement. This has led to innumerable errors, vulnerabilities, and system crashes, which have probably caused a billion dollars of pain and damage in the last forty years.
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