Composite data type
In computer science, a composite data type or compound data type is any data type which can be constructed in a program using the programming language's primitive data types and other composite types. It is sometimes called a structure or aggregate data type,[1] although the latter term may also refer to arrays, lists, etc. The act of constructing a composite type is known as composition.
C/C++ structures and classes
A struct
is C's and C++'s notion of a composite type, a datatype that composes a fixed set of labeled fields or members. It is so called because of the struct
keyword used in declaring them, which is short for structure or, more precisely, user-defined data structure.
In C++, the only difference between a struct
and a class is the default access level, which is private for classes and public for struct
s.
Note that while classes and the class
keyword were completely new in C++, the C programming language already had a crude type of struct
s. For all intents and purposes, C++ struct
s form a superset of C struct
s: virtually all valid C struct
s are valid C++ struct
s with the same semantics.
Declaration
A struct
declaration consists of a list of fields, each of which can have any type. The total storage required for a struct
object is the sum of the storage requirements of all the fields, plus any internal padding.
For example:
struct Account {
int account_number;
char *first_name;
char *last_name;
float balance;
};
defines a type, referred to as struct Account
. To create a new variable of this type, we can write struct Account myAccount;
which has an integer component, accessed by myAccount.account_number
, and a floating-point component, accessed by myAccount.balance
, as well as the first_name
and last_name
components. The structure myAccount
contains all four values, and all four fields may be changed independently.
Since writing struct Account
repeatedly in code becomes cumbersome, it is not unusual to see a typedef
statement in C code to provide a more convenient synonym for the struct
.
For example:
typedef struct Account_ {
int account_number;
char *first_name;
char *last_name;
float balance;
} Account;
In C++ code, the typedef
is not needed because types defined using struct
are already part of the regular namespace, so the type can be referred to as either struct Account
or simply Account
.
As another example, a three-dimensional Vector composite type that uses the floating point data type could be created with:
struct Vector {
float x;
float y;
float z;
};
A variable named velocity
with a Vector
composite type would be declared as Vector velocity;
Members of the velocity
would be accessed using a dot notation. For example, velocity.x = 5;
would set the x
component of velocity
equal to 5.
Likewise, a color structure could be created using:
struct Color {
unsigned int red;
unsigned int green;
unsigned int blue;
};
In 3D graphics, you usually must keep track of both the position and color of each vertex. One way to do this would be to create a Vertex
composite type, using the previously created Vector
and Color
composite types:
struct Vertex {
Vector position;
Color color;
};
Instantiation
Create a variable of type struct Vertex
using the same format as before: Vertex v;
Member access
Assign values to the components of v
like so:
v.position.x = 0.0;
v.position.y = 1.5;
v.position.z = 0.0;
v.color.red = 128;
v.color.green = 0;
v.color.blue = 255;
Primitive subtype
The primary use of struct
is for the construction of complex datatypes, but sometimes it is used to create primitive structural subtyping. For example, since Standard C requires that if two structs have the same initial fields, those fields will be represented in the same way, the code
struct ifoo_old_stub {
long x, y;
};
struct ifoo_version_42 {
long x, y, z;
char *name;
long a, b, c;
};
void operate_on_ifoo(struct ifoo_old_stub *);
struct ifoo_version_42 s;
. . .
operate_on_ifoo(&s);
will work correctly.
Type signature
Type signatures (or Function types) are constructed from primitive and composite types, and can serve as types themselves when constructing composite types:
typedef struct {
int x;
int y;
} Point;
typedef double (*Metric) (Point p1, Point p2);
typedef struct {
Point centre;
double radius;
Metric metric;
} Circle;
References
- ↑ Howe, Denis. "The Free On-line Dictionary of Computing". Dictionary.com. Retrieved 1 February 2016.
See also
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