I am reading Programming in C by Stephan G. Kochan. He states that C has only five data types; int, float, double, char and _Bool.

What about long? Isn't it a builtin type? http://www.programiz.com/c-programming/c-data-types says long is a qualifier to modify the size. If it is a qualifier then it should be only used as a long int, and not as a standalone long.

And what about _Bool? Many Internet tutorials say there is no boolean type in C.


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    many Internet tutorial says there is not boolean type in C because _bool was added in C99. – David Ranieri Jun 23 '16 at 9:03
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    Be careful when browsing random C tutorials on the net. They tend to be full of BS. There is nothing called "sign qualifier" in C, and there has never been. The person who wrote that tutorial simply pulled that term out of their posterior. – Lundin Jun 23 '16 at 9:29
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    @GulluButt I wished that was true. There are many C books of horribly poor quality. But it is true that books overall have higher quality than internet blogs. – Lundin Jun 23 '16 at 9:32
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    @GulluButt: That is the wrong way around. – Lightness Races BY-SA 3.0 Jun 23 '16 at 10:51
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    tl;dr long is both a type (equal to long int) but can be a "qualifier"/"modifier" to increase the var size (for long, double and _Complex) – user719662 Jun 23 '16 at 11:45

He states that C has only five data types; int, float, double, char and _Bool.

That's quite an over-simplification. Maybe intentional, if the book is aimed towards beginners.

If you go through C11 6.2.5 it lists the following distinct data types:

Character types (6.2.5/15)

signed char
unsigned char

Standard signed integer types (6.2.5/4)

signed char
short int
long int
long long int

Standard unsigned integer types (6.2.5/5)

unsigned char
unsigned short int
unsigned int
unsigned long int
unsigned long long int

Real floating types (6.2.5/10)

long double

Complex types (6.2.5/11)

float _Complex
double _Complex
long double _Complex

Enumerated type (6.2.5/16)

enum {}

void type (6.2.5/19) (void type is an incomplete type)


Derived types (6.2.5/20)

  • Array type
  • Structure type
  • Union type
  • Function type
  • Pointer type
  • Atomic type

Formally the term is type specifier 6.7.2:


At least one type specifier shall be given in the declaration specifiers in each declaration, and in the specifier-qualifier list in each struct declaration and type name. Each list of type specifiers shall be one of the following multisets (delimited by commas, when there is more than one multiset per item); the type specifiers may occur in any order, possibly intermixed with the other declaration specifiers.
— void
— char
— signed char
— unsigned char
— short, signed short, short int, or signed short int
— unsigned short, or unsigned short int
— int, signed, or signed int
— unsigned, or unsigned int
— long, signed long, long int, or signed long int
— unsigned long, or unsigned long int
— long long, signed long long, long long int, or signed long long int
— unsigned long long, or unsigned long long int
— float
— double
— long double
— _Bool
— float _Complex
— double _Complex
— long double _Complex
— atomic type specifier
— struct or union specifier
— enum specifier
— typedef name

As we can see, long is a type specifier. It is not a type qualifier.

  • signed char and unsigned char are listed twice (as char types and integer types). Why is this? One could read that as if they were different distinct types depending on the context. – Z boson Jun 28 '16 at 6:34
  • @Zboson Likely to give emphasis that they can be used for either storing characters or for storing numbers, unlike char, which can reliably only be used for storing characters (because of its implementation-defined signedness). It is important to understand that the char types are part of the integer types, in order to understand how the various intricate rules of type conversion and type promotion work. – Lundin Jun 28 '16 at 6:43

From the C11 draft, section 6.2.5 ("Types)" paragraph 4:

There are five standard signed integer types, designated as signed char, short int, int, long int, and long long int.

How these types are specified in program text is another issue, there are many ways since the syntax is rather lax. For instance, according to 6.7.2 ("Type Specifiers") the following are all valid ways to specify the same type:

long, signed long, long int, or signed long int

This says that long by itself is a valid type specifier for the type long int. This was the same in C99 (and, I would guess, earlier standards too). So no, it's not a qualifier.

In addition, the above can be intermixed with things like static, volatile, pointer asterisks, and so on.

I would suggest reading some other book, since it's confusing to read books that use different terminology from the standard. The standard is often refered to when answering questions about C, so it's a good idea to be familiar with it.

  • so long was never a part of c ? Not even in C99 or C89? – Wafeeq Jun 23 '16 at 9:06
  • It was, but @unwind decided to quote C11 :) – xenteros Jun 23 '16 at 9:11
  • I am begginner and at Harward they recommended this book. Do you suggest some other which are up to date? also for beginners? I know other languages but not c so not really a begginner but atleast for c. – Wafeeq Jun 23 '16 at 9:11
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    "syntax is rather lax" - truer words have never been typed. Years ago after seeing unsigned was synonymous to unsigned int I was curious whether stand-alone signed was consumable similarly. Surprise (6.7.2). Something to keep coworkers on their toes. – WhozCraig Jun 23 '16 at 9:28
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    @WhozCraig I'm in the habit of using unsigned and signed alone where I specifically care about the signage, and plain int where I don't care, usually because I'm interfacing with some API that uses int where it doesn't actually need any numbers below 0... I find this a good combination of clarity and avoiding superfluous typing, fwiw, but dunno whether I'm in a majority here. – underscore_d Jun 23 '16 at 12:44

In the C programming language, data types are declarations for memory locations or variables that determine the characteristics of the data that may be stored and the methods (operations) of processing that are permitted involving them.

The C language provides basic arithmetic types, such as integer and real number types, and syntax to build array and compound types. Several headers in the C standard library contain definitions of support types, that have additional properties, such as providing storage with an exact size, independent of the implementation. https://wikipedia.org/wiki/C_data_types

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