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4.2 Literals

[ A literal represents a value literally, that is, by means of notation suited to its kind.] A literal is either a numeric_literal, a character_literal, the literal null, or a string_literal.
Discussion: An enumeration literal that is an identifier rather than a character_literal is not considered a literal in the above sense, because it involves no special notation “suited to its kind”. It might more properly be called an enumeration_identifier, except for historical reasons. 

Name Resolution Rules

This paragraph was deleted.{AI95-00230-01}
For a name that consists of a character_literal, either its expected type shall be a single character type, in which case it is interpreted as a parameterless function_call that yields the corresponding value of the character type, or its expected profile shall correspond to a parameterless function with a character result type, in which case it is interpreted as the name of the corresponding parameterless function declared as part of the character type's definition (see 3.5.1). In either case, the character_literal denotes the enumeration_literal_specification.
Discussion: See 4.1.3 for the resolution rules for a selector_name that is a character_literal.
{AI12-0325-1} {AI12-0373-1} The expected type for a primary that is a string_literal shall be a single string type or a type with a specified String_Literal aspect (see 4.2.1). In either case, the string_literal is interpreted to be of its expected type. If the expected type of an integer literal is a type with a specified Integer_Literal aspect (see 4.2.1), the literal is interpreted to be of its expected type; otherwise it is interpreted to be of type universal_integer. If the expected type of a real literal is a type with a specified Real_Literal aspect (see 4.2.1), it is interpreted to be of its expected type; otherwise, it is interpreted to be of type universal_real

Legality Rules

A character_literal that is a name shall correspond to a defining_character_literal of the expected type, or of the result type of the expected profile.
{AI12-0295-1} {AI12-0325-1} If the expected type for a string_literal is a string type, then for For each character of the a string_literal with a given expected string type, there shall be a corresponding defining_character_literal of the component type of the expected string type.
This paragraph was deleted.{AI95-00230-01} {AI95-00231-01}

Static Semantics

{AI95-00230-01} {AI12-0373-1} An integer literal is of type universal_integer. A real literal is of type universal_real. The literal null is of type universal_access.

Dynamic Semantics

{AI12-0249-1} If its expected type is a numeric type, the The evaluation of a numeric literal, or the literal null, yields the represented value. [In other cases, the effect of evaluating a numeric literal is determined by the Integer_Literal or Real_Literal aspect that applies (see 4.2.1).]
 {AI12-0249-1} The evaluation of the literal null yields the null value of the expected type.
{AI12-0295-1} {AI12-0325-1} The evaluation of a string_literal that is a primary and has an expected type that is a string type, yields an array value containing the value of each character of the sequence of characters of the string_literal, as defined in 2.6. The bounds of this array value are determined according to the rules for positional_array_aggregates (see 4.3.3), except that for a null string literal, the upper bound is the predecessor of the lower bound. [In other cases, the effect of evaluating a string_literal is determined by the String_Literal aspect that applies (see 4.2.1).]
{AI12-0295-1} {AI12-0325-1} For the evaluation of a string_literal of a string type T, a check is made that the value of each character of the string_literal belongs to the component subtype of T. For the evaluation of a null string literal of a string type, a check is made that its lower bound is greater than the lower bound of the base range of the index type. The exception Constraint_Error is raised if either of these checks fails. 
Ramification: {AI12-0005-1} If no predicates apply to the component subtype, the The checks on the characters need not involve more than two checks altogether, since one need only check the characters of the string with the lowest and highest position numbers against the range of the component subtype. 
NOTE   Enumeration literals that are identifiers rather than character_literals follow the normal rules for identifiers when used in a name (see 4.1 and 4.1.3). Character_literals used as selector_names follow the normal rules for expanded names (see 4.1.3).


Examples of literals:
3.14159_26536    --  a real literal
1_345            --  an integer literal
'A'              --  a character literal
"Some Text"      --  a string literal 

Incompatibilities With Ada 83

Because character_literals are now treated like other literals, in that they are resolved using context rather than depending on direct visibility, additional qualification might be necessary when passing a character_literal to an overloaded subprogram. 

Extensions to Ada 83

Character_literals are now treated analogously to null and string_literals, in that they are resolved using context, rather than their content; the declaration of the corresponding defining_character_literal need not be directly visible. 

Wording Changes from Ada 83

Name Resolution rules for enumeration literals that are not character_literals are not included anymore, since they are neither syntactically nor semantically "literals" but are rather names of parameterless functions.

Extensions to Ada 95

{AI95-00230-01} {AI95-00231-01} Null now has type universal_access, which is similar to other literals. Null can be used with anonymous access types. 

Wording Changes from Ada 2012

{AI12-0249-1} {AI12-0295-1} The rules in this subclause are adjusted to allow for the possibility of user-defined literals. These are fully documented in the next subclause. 

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