# Why does the literal value in a type long assignment still have an 'L' at the end in C++?

Cant seem to find the answer to this, I'm sure it's simple, but just want to understand this so I can move on.

I'm looking at integer types, and am wondering why this:

``````long number = 645456645;
``````

has the same effect as:

``````long number = 654456654L;
``````

What is the point of using that letter 'L' at the end? Same with the 'U' for unsigned case.

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Why have you used two different numbers, and then said that the effect is the same? –  Steve Jessop Dec 4 '11 at 1:46

I'm looking at Integer Types, and am wondering why this -

``````long number = 645456645;
``````

has the same effect as -

``````long number = 654456654L;
``````

Strictly speaking, the two are not equivalent.

• In the former, your literal `645456645` has type `int` and is converted to `long` for the initialisation.
• In the latter, it's already a `long` so no conversion is performed.

In this trivial example there's obviously no functional difference, but on a platform where the range of `long` is not the same as the range of `int`, you may find that you have to use the `L` suffix to actually get the valid literal in the first place.

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The first claim assumes that on the OP's flatform the number is an `int`. That's platform-dependent; it might already be a `long`. –  Kerrek SB Dec 3 '11 at 21:27
Or `long long`. As clarification to the answer, integer literals choose their type based on a list of possible types and they take the first type that is able to represent the value. The suffixes restrict the list of possible types. E.g. an integer literal with no suffix is the first of the following types that can represent the value: `int`, `long`, or `long long`. A literal with the `L` suffix chooses from the list: `long`, or `long long`. –  bames53 Dec 3 '11 at 21:42
@bames53: Actually the literal `645456645` cannot have type `long long`, since `long` is guaranteed to be big enough to contain it. The minimum permissible value for `LONG_MAX` is `2147483647`. But for decimal literals in general, of course you're right, some of them do have type `long long`. –  Steve Jessop Dec 4 '11 at 1:48

The literal type specifier determines the type of the literal.

Naked integer literals always have the smallest possible `int`-type they fit, but with the specifier you can be explicit about the smalles type you wish to be considered:

``````12:    int             12U:    unsigned int
12L:   long int        12UL:   unsigned long int
12LL:  long long int   12ULL:  unsigned long long int
``````

Imagine this:

``````template <typename T> void foo(T, T);
``````

Now `foo(12, 12L)` fails because it is ambiguous, but `foo(12U, 12U)` works (and `T` is deduced as `unsigned int`). So literal type specifiers can be very important when you need to control the actual type of a literal expression.

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"Naked integer literals always have the smallest possible type they fit", but at least `int`, you can't have an integer literal that has type `short`. –  Charles Bailey Dec 3 '11 at 22:07
@CharlesBailey: yes, good point, I added that. I guess the base type for naked literals is always the same as the base type used in variadic function arguments, if that helps (`int` and `double`). –  Kerrek SB Dec 3 '11 at 22:11

It's to specify the type of the integer literal. `L` makes it a `long` and `U` makes it unsigned.

The use of it is cases like this:

``````long long number = 123456789123456;
long long number = 123456789123456LL;
``````

Some compilers will complain about the first one since `123456789123456` doesn't fit in the default `int`.

The other case where it is used is to disambiguate between overloaded functions.

main.cpp

``````int main(){

long long number = 123456789123456;

return 0;
}
``````

Compiling it gives:

``````alex-desktop:~/Desktop/vm_shared> g++ main.cpp
main.cpp:3: warning: integer constant is too large for ‘long’ type
alex-desktop:~/Desktop/vm_shared>
``````

gcc version: 4.4.3

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Show me a platform where `123456789123456L` is valid. –  Lightness Races in Orbit Dec 3 '11 at 21:21
Sorry, bad example, since `long` is the same as `int` on Windows. EDIT: Though `long` is 64-bits on Linux. –  Mysticial Dec 3 '11 at 21:23
If `123456789123456LL` is valid for a compiler then it shouldn't complain about `123456789123456` because when choosing the type integer constants, the implementation must chose a type in which the constant fits. –  Charles Bailey Dec 3 '11 at 21:47
@CharlesBailey: g++ emits a warning without the `LL`. `main.cpp:6: warning: integer constant is too large for ‘long’ type`. VS2010 doesn't complain though. –  Mysticial Dec 3 '11 at 21:51
@Mysticial: Are you sure you are compiling the code that is initializing a `long long` with the constant? –  Charles Bailey Dec 3 '11 at 21:53

Normally a literal such as this will be interpreted as an integer, and occasionally you want to specify a literal that is too big for an integer (> INT_MAX), in these cases you use such suffix, `L` and `LL` (`U` etc.), which tells the compiler to treat the literal as a `long` (and `long long`)

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