In computer programming, an enumerated type (also called enumeration or enum) is a data type consisting of a set of named valuescalled elements, members or enumerators of the type. The enumerator names are usually identifiers that behave as constants in the language. A variable that has been declared as having an enumerated type can be assigned any of the enumerators as a value. In other words, an enumerated type has values which are different from each other, and which can be compared and assigned, but which do not have any particular concrete representation in the computer's memory; compilers and interpreters can represent them arbitrarily.
For example, the four suits in a deck of playing cards may be four enumerators named CLUB, DIAMOND, HEART, SPADE, belonging to an enumerated type named suit. If a variable V is declared having suit as its data type, one can assign any of those four values to it.
The enumerators are necessarily distinct, even though some languages may allow the same enumerator to be listed twice in the type's declaration. The enumerators need not be complete or compatible in any sense. For example, an enumerated type called color may be defined to consist of the enumerators RED, GREEN, ZEBRA, MISSING, and BACON. In some languages, the declaration of an enumerated type also defines an ordering of its members.
Some enumerator types may be built into the language. The Boolean type, for example is often a pre-defined enumeration of the valuesFALSE and TRUE. Many languages allow the user to define new enumerated types.
Values and variables of an enumerated type are usually implemented as fixed-length bit strings, often in a format and size compatible with some integer type. Some languages, especially system programming languages, allow the user to specify the bit combination to be used for each enumerator. In type theory, enumerated types are often regarded as tagged unions of unit types. Since such types are of the form 
, they may also be written as natural numbers.
, they may also be written as natural numbers.Contents[hide] |
[edit]Rationale
Some early programming languages did not originally have enumerated types. If a programmer wanted a variable, for example myColor, to have a value of red, the variable red would be declared and assigned some arbitrary value, usually an integer constant. The variable red would then be assigned to myColor. Other techniques assigned arbitrary values to strings containing the names of the enumerators.
These arbitrary values were sometimes referred as magic numbers since there often was no explanation as to how the numbers were obtained or whether their actual values were significant. These magic numbers could make the source code harder for others to understand and maintain.
Enumerated types, on the other hand, made the code more self-documenting. Depending on the language, the compiler could automatically assign default values to the enumerators thereby hiding unnecessary detail from the programmer. These values may not even be visible to the programmer (see information hiding). Enumerated types can also prevent a programmer from writing illogical code such as performing mathematical operations on the values of the enumerators. If the value of a variable that was assigned an enumerator were to be printed, some programming languages could also print the name of the enumerator rather than its underlying numerical value.
Conceptually speaking, an enumerated type is similar to a list of nominals, since each possible value of the type is assigned a distinctive natural number. A given enumerated type is thus a concrete implementation of this notion. When order is meaningful and/or used for comparison, then an enumerated type becomes an ordinal type.
[edit]Conventions
In some programming conventions, enumerators are conventionally written with upper case letters to indicate they are constants.
[edit]Pascal and syntactically similar languages
In Pascal, an enumerated type can be implicitly declared by listing the values in a parenthesised list:
var suit: (clubs, diamonds, hearts, spades);
The declaration will often appear in a type synonym declaration, such that it can be used for multiple variables:
type cardsuit = (clubs, diamonds, hearts, spades); card = record suit: cardsuit; value: 1 .. 13; end; var hand: array [ 1 .. 13 ] of card; trump: cardsuit;
The order in which the enumeration values are given matters. An enumerated type is an ordinal type, and the
pred and succ functions will give the prior or next value of the enumeration, and ord can convert enumeration values to their integer representation. Standard Pascal does not offer a conversion from arithmetic types to enumerations, however. Extended Pascal offers this functionality via an extended succ function. Some other Pascal dialects allow it via type-casts. Some modern descendants of Pascal, such as Modula-3, provide a special conversion syntax using a method called VAL; Modula-3 also treats BOOLEAN and CHAR as special pre-defined enumerated types and uses ORD and VAL for standard ASCII decoding and encoding.
Pascal style languages also allow for enumeration to be used as array index
var suitcount: array [cardsuit] of integer;
[edit]Ada
In Ada, the use of "=" was replaced with "is" leaving the definition quite similar:
type Cardsuit is (clubs, diamonds, hearts, spades);
In addition to
Pred, Succ, Val and Pos Ada also supports simple string conversions via Image and Value.
Similar to C-style languages Ada allows the internal representation of the enumeration to be specified:
for Cardsuit use (clubs => 1, diamonds => 2, hearts => 4, spades => 8);
Unlike C-style languages Ada also allows the number of bits of the enumeration to be specified:
for Cardsuit'Size use 4; -- 4 bits
Even more, you can use enumerations as indexes for arrays like pascal, but there are attributes defined for enumerations
Shuffle : constant array(Cardsuit) of Cardsuit := (Clubs => Cardsuit'Succ(Clubs), -- see attributes of enumerations 'First, 'Last, 'Succ, 'Pred Diamonds => Hearts, --an explicit value Hearts => Cardsuit'Last, --first enumeration value of type Cardsuit eg clubs Spades => Cardsuit'First --last enumeration value of type Cardsuit eg spades );
Like Modula-3 Ada treats
Boolean and Character as special pre-defined (in package "Standard") enumerated types. Unlike Modula-3 one can also define own character types:type Cards is ("7", "8", "9", "J", "Q", "K", "A");
[edit]C and syntactically similar languages
The original K&R dialect of the C programming language did not have enumerated types, but they were added in the ANSI standard for C, which became C89. In C, enumerations are created by explicit definitions, which use the
enum keyword and are reminiscent of struct and union definitions:enum cardsuit { CLUBS, DIAMONDS, HEARTS, SPADES }; struct card { enum cardsuit suit; short int value; } hand[13]; enum cardsuit trump;
C exposes the integer representation of enumeration values directly to the programmer. Integers and enum values can be mixed freely, and all arithmetic operations on enum values are permitted. It is even possible for an enum variable to hold an integer that does not represent any of the enumeration values. In fact, according to the language definition, the above code will define
CLUBS, DIAMONDS,HEARTS, and SPADES as constants of type int, which will only be converted (silently) to enum cardsuit if they are stored in a variable of that type.
C also allows the programmer to choose the values of the enumeration constants explicitly, even without type. For example,
enum cardsuit { CLUBS = 1, DIAMONDS = 2, HEARTS = 4, SPADES = 8 };
could be used to define a type that allows mathematical sets of suits to be represented as an
enum cardsuit by bitwise logic operations.
Typeless languages in the syntactic tradition of C (e.g., Perl or JavaScript) do not, in general, provide enumerations.
[edit]C++
C++ has enumeration types that are directly inherited from C's and work mostly like these, except that an enumeration is a real type in C++, giving additional compile-time checking. Also (as with structs) the C++ "enum" keyword is automatically combined with a "typedef", so that instead of calling the type "enum name", one simply calls it "name." This can be simulated in C using a typedef: "typedef enum {TYPE1, TYPE2} name;"
C++11 provides a second, "type-safe" enumeration type, which is not implicitly converted to an integer type. This is specified by the phrase "enum class". For example:
enum class Color {Red, Green, Blue};
[edit]Java
The J2SE version 5.0 of the Java programming language added enumerated types whose declaration syntax is similar to that of C's:
enum Cardsuit { CLUBS, DIAMONDS, SPADES, HEARTS }; ... Cardsuit trump ;
The Java type system, however, treats enumerations as a type separate from integers, and intermixing of enum and integer values is not allowed. In fact, an enum type in Java is actually a special compiler-generated class rather than an arithmetic type, and enum values behave as global pre-generated instances of that class. Enum types can have instance methods and a constructor (the arguments of which can be specified separately for each enum value). All enum types implicitly extend the
Enum abstract class. An enum type cannot be instantiated directly.
Internally, each enum value contains an integer, corresponding to the order in which they are declared in the source code, starting from 0. The programmer cannot set a custom integer for an enum value directly, but one can define overloaded constructors which can then assign arbitrary values to self-defined members of the enum class. Defining getters allows then access to those self-defined members. The internal integer can be obtained from an enum value using the
ordinal() method, and the list of enum values of an enumeration type can be obtained in order using the values() method. It is generally discouraged for programmers to convert enums to integers and vice versa.[1] Enumerated types are Comparable, using the internal integer; as a result, they can be sorted.
The Java standard library provides utility classes to use with enumerations. The
EnumSet class implements a Set of enum values; it is implemented as a bit array, which makes it very compact and as efficient as explicit bit manipulation, but safer. The EnumMapclass implements a Map of enum values to object. It is implemented as an array, with the integer value of the enum value serving as the index.[edit]C#
Enumerated types in the C# programming language preserve most of the "small integer" semantics of C's enums. Some arithmetic operations are not defined for enums, but an enum value can be explicitly converted to an integer and back again, and an enum variable can have values that were not declared by the enum definition. For example, given
enum Cardsuit { Club, Diamonds, Spades, Hearts };
the expressions
CardSuit.Diamonds + 1 and CardSuit.Hearts - CardSuit.Clubs are allowed directly (because it makes sense to step through the sequence of values or ask how many steps there are between two values), but CardSuit.Hearts * CardSuit.Spades is deemed to make less sense and is only allowed if the values are first converted to integers.[edit]Fortran
Fortran only has enumerated types for interoperability with C; hence, the semantics is similar to C and, as in C, the enum values are just integers and no further type check is done. The C example from above can be written in Fortran as
enum, bind( C ) enumerator :: CLUBS = 1, DIAMONDS = 2, HEARTS = 4, SPADES = 8 end enum
[edit]Visual Basic/VBA
Enumerated datatypes in Visual Basic (up to version 6) and VBA are automatically assigned the "
Long" datatype and also become a datatype themselves:Enum CardSuit Clubs Diamonds Hearts Spades End Enum Sub EnumExample() Dim suit As CardSuit suit = Diamonds MsgBox suit End Sub
Example Code in vb.Net
Enum CardSuit Clubs Diamonds Hearts Spades End Enum Sub EnumExample() Dim suit As CardSuit suit = CardSuit.Diamonds MsgBox(suit) End Sub
[edit]Algebraic data type in functional programming
In functional programming languages in the ML lineage (e.g., SML, OCaml and Haskell), an algebraic data type with only nullary constructors can be used to implement an enumerated type. For example (in the syntax of SML signatures):
datatype cardsuit = Clubs | Diamonds | Hearts | Spades
type card = { suit: cardsuit; value: int }
val hand : card list
val trump : cardsuit
In these languages the small-integer representation is completely hidden from the programmer, if indeed such a representation is employed by the implementation. However, Haskell has the
Enum type class which a type can derive or implement to get a mapping between the type and Int.[edit]Lisp
Common Lisp uses the member type specifier, e.g.
(deftype cardsuit () '(member club diamond heart spade))
which states that object is of type cardsuit if it is
#'eql to club, diamond, heart or spade. The member type specifier is not valid as aCLOS parameter specializer, however. Instead, (eql atom), which is the equivalent to (member atom) may be used (that is, only one member of the set may be specified with an eql type specifier, however, it may be used as a CLOS parameter specializer.) In other words, in order to define methods to cover an enumerated type, a method must be defined for each specific element of that type.
Additionally,
(deftype finite-element-set-type (&rest elements) `(member ,@elements))
may be used to define arbitrary enumerated types at runtime. For instance
(finite-element-set-type club diamond heart spade)
would refer to a type equivalent to the prior definition of cardsuit, as of course would simply have been using
(member club diamond heart spade)
but may be less confusing with the function
#'member for stylistic reasons.[edit]Databases
Some databases support enumerated types directly. MySQL provides an enumerated type
ENUM with allowable values specified as strings when a table is created. The values are stored as numeric indices with the empty string stored as 0, the first string value stored as 1, the second string value stored as 2, etc. Values can be stored and retrieved as numeric indexes or string values.[edit]XML
XML supports enumerated types through the enumeration facet used for constraining most primitive datatypes such as strings.
<xs:element name="car"> <xs:simpleType> <xs:restriction base="xs:string"> <xs:enumeration value="Audi"/> <xs:enumeration value="Volkswagen"/> <xs:enumeration value="BMW"/> </xs:restriction> </xs:simpleType> </xs:element>
[edit]References
- ^ Bloch, Joshua (2008). Effective Java (Second ed.). Upper Saddle River, N.J.: Addison-Wesley. p. 158. ISBN 978-0-321-35668-0.
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