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What all constructs(class,struct,union) classify as types in C++? Can anyone explain the rationale behind calling and qualifying certain C++ constructs as a 'type'.

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The rationale is simple: because nobody could think up a better word to describe what you get from creating a class or struct. –  Jerry Coffin Nov 22 '10 at 4:09
@Jerry: that rationale is wrong. SLaks has the correct answer. –  Ken Bloom Nov 22 '10 at 4:53
@Ken: Not really. First of all, use of the word "type" in describing programming languages predates C++ (and even C) by quite a while, so applying it when C++ came along was quite natural -- but only much later was the term formally defined. Second, quite a bit of what SLaks says is basically wrong wrt C++. Just for example, in C++ type means more about what operations are allowed than about what values are allowed. Different types can (and often do) support the same values but different sets of operations. –  Jerry Coffin Nov 22 '10 at 5:06
Just to give a couple of concrete examples, a vector<long> and vector<string> have completely different allowable values, but still have common operations. In the other direction, vector<int> and valarray<int> have basically the same allowable values, but different operations. Despite allowing the same values, vector and valarray are clearly different types. Despite allowing different values, vector<string> and vector<int>` are at least more closely related types if not necessarily identical. Despite formal definitions, "type" is mostly used because nobody has a better word. –  Jerry Coffin Nov 22 '10 at 5:18
@Jerry: you're splitting hairs. For someone who wants to understand why these are "types", SLaks wrote very simple and correct answer. –  Ken Bloom Nov 22 '10 at 14:12

4 Answers 4

up vote 5 down vote accepted

A variable contains a value.
A type is a specification of the value. (eg, number, text, date, person, truck)

All variables must have a type, because they must hold strictly defined values.

Types can be built-in primitives (such as int), custom types (such as enums and classes), or some other things.

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$3.9/1 - "There are two kinds of types: fundamental types and compound types. Types describe objects (1.8), references (8.3.2), or functions (8.3.5). ]"

Fundamental types are char, int, bool and so on.

Compound types are arrays, enums, classes, references, unions etc

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Other answers address the kinds of types C++ makes available, so I'll address the motivation part. Note that C++ didn't invent the notion of a data type. Quoting from the Wikipedia entry on Type system.

a type system may be defined as "a tractable syntactic framework for classifying phrases according to the kinds of values they compute"

Another interesting definition from the Data Type page:

a data type (or datatype) is a classification identifying one of various types of data, such as floating-point, integer, or Boolean, stating the possible values for that type, the operations that can be done on that type, and the way the values of that type are stored

Note that this last one is very close to what C++ means by "type". Perhaps obvious for the built-in (fundamental) types like bool:

  • possible values are true and false
  • operations - per definition of arithmetic operators that can accept bool as argument
  • the way it's stored - actually not mandated by the C++ standard, but one can guess that on some systems a type requiring only a single bit can be stored efficiently (although I think most C++ systems don't do this optimization).

For more complex, user created, types, the situation is more difficult. Consider enum types: you know exactly the range of values a variable of an enum type can get. What about struct and class? There, also, your type declaration tells the compiler what possible values the struct can have, what operations you can do on it (operator overloading and functions accepting objects of this type), and it will even infer how to store it.

Re range of values, although huge, remember it's finite. Even a struct with N 32-bit integers has a finite range of possible values, which is 2^(32N).

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Thanks that addresses the second part of my Q(For me, the first part is nicely addressed by Slaks answer).Unfortunate that I can't mark 2 answers. But thanks for the insights. –  Alok Save Nov 23 '10 at 4:03

Sounds like a matter of semantics to me...A type refers to something with a construct that can be used to describe it in a away that conforms to traditional Object Oriented concepts(properties and methods). Anything that isn't called a type is probably created with a less robust construct.

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