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An expression is a sequence of operators and their operands, that specifies a computation.

Expression evaluation may produce a result (e.g., evaluation of 2 + 2 produces the result 4) and may generate side-effects (e.g. evaluation of std::printf("%d", 4) prints the character '4' on the standard output).

Each C++ expression is characterized by two independent properties: A type and a value category.

Contents

[edit] General

  • value categories (lvalue, rvalue, glvalue, prvalue, xvalue(since C++11)) classify expressions by their values
  • order of evaluation of arguments and subexpressions specify the order in which intermediate results are obtained

[edit] Operators

Common operators
assignment increment
decrement
arithmetic logical comparison member
access
other

a = b
a += b
a -= b
a *= b
a /= b
a %= b
a &= b
a |= b
a ^= b
a <<= b
a >>= b

++a
--a
a++
a--

+a
-a
a + b
a - b
a * b
a / b
a % b
~a
a & b
a | b
a ^ b
a << b
a >> b

!a
a && b
a || b

a == b
a != b
a < b
a > b
a <= b
a >= b
a <=> b

a[...]
*a
&a
a->b
a.b
a->*b
a.*b

function call
a(...)
comma
a, b
conditional
a ? b : c
Special operators

static_cast converts one type to another related type
dynamic_cast converts within inheritance hierarchies
const_cast adds or removes cv-qualifiers
reinterpret_cast converts type to unrelated type
C-style cast converts one type to another by a mix of static_cast, const_cast, and reinterpret_cast
new creates objects with dynamic storage duration
delete destructs objects previously created by the new expression and releases obtained memory area
sizeof queries the size of a type
sizeof... queries the size of a parameter pack (since C++11)
typeid queries the type information of a type
noexcept checks if an expression can throw an exception (since C++11)
alignof queries alignment requirements of a type (since C++11)

[edit] Conversions

[edit] Memory allocation

[edit] Other

[edit] Primary expressions

The operands of any operator may be other expressions or primary expressions (e.g. in 1 + 2 * 3, the operands of operator+ are the subexpression 2 * 3 and the primary expression 1).

Primary expressions are any of the following:

(since C++26)
(since C++11)
(since C++17)
(since C++20)

Any expression in parentheses is also classified as a primary expression: this guarantees that the parentheses have higher precedence than any operator. Parentheses preserve value, type, and value category.

[edit] Literals

Literals are the tokens of a C++ program that represent constant values embedded in the source code.

  • char or wchar_t
  • char16_t or char32_t
(since C++11)
  • char8_t
(since C++20)
  • const char[] or const wchar_t[]
  • const char16_t[] or const char32_t[]
(since C++11)
  • const char8_t[]
(since C++20)
(since C++11)

[edit] Full-expressions

A constituent expression is defined as follows:

  • The constituent expression of an expression is that expression.
  • The constituent expressions of a braced-init-list or of a (possibly parenthesized) expression list are the constituent expressions of the elements of the respective list.
  • The constituent expressions of a brace-or-equal-initializer of the form = initializer-clause are the constituent expressions of the initializer-clause.
int num1 = 0;
num1 += 1; // Case 1: the constituent expression of `num += 1` is `num += 1`
 
int arr2[2] = {2, 22} // Case 2: the constituent expressions
                      //         of `{2, 22}` are `2` and `22`
                      // Case 3: the constituent expressions of ` = {2, 22}`
                      //         are the constituent expressions of `{2, 22}`
                      //         (i.e. also `2` and `22`)

The immediate subexpressions of an expression E are

  • the constituent expressions of E’s operands,
(since C++14)
  • if E is a lambda expression, the initialization of the entities captured by copy and the constituent expressions of the initializer of the captures,
(since C++11)
  • any function call that E implicitly invokes, or
  • if E is a function call or implicitly invokes a function, the constituent expressions of each default argument used in the call.

A subexpression of an expression E is an immediate subexpression of E or a subexpression of an immediate subexpression of E. Note that expressions appearing in the 'function body' of lambda expressions are not subexpressions of the lambda expression.(since C++11)

A full-expression is

(since C++20)
  • a declarator of a simple declaration or a member initializer, including the constituent expressions of the initializer,
  • an invocation of a destructor generated at the end of the lifetime of an object other than a temporary object whose lifetime has not been extended, or
  • an expression that is not a subexpression of another expression and that is not otherwise part of a full-expression.

If a language construct is defined to produce an implicit call of a function, a use of the language construct is considered to be an expression for the purposes of this definition. Conversions applied to the result of an expression in order to satisfy the requirements of the language construct in which the expression appears are also considered to be part of the full-expression.

For an initializer, performing the initialization of the entity (including evaluating default member initializers of an aggregate)(since C++14) is also considered part of the full-expression.

[edit] Potentially-evaluated expressions

An expression is potentially evaluated unless

  • it is the operand of the sizeof operator, or
  • it is the operand of the typeid operator and does not designate an lvalue of polymorphic class type.
(until C++11)

The following operands are unevaluated operands , they are not evaluated:

  • expressions which the typeid operator applies to, except glvalues of polymorphic class types
  • expressions which are operands of the sizeof operator
  • operands of the noexcept operator
  • operands of the decltype specifier
(since C++20)

An expression is potentially evaluated unless

  • it is an unevaluated operand, or
  • it is a subexpression of an unevaluated operand.
(since C++11)

Potentially-evaluated expressions are ODR-use.

[edit] Discarded-value expressions

A discarded-value expression is an expression that is used for its side-effects only. The value calculated from such expression is discarded. Such expressions include the full-expression of any expression statement, the left-hand operand of the built-in comma operator, or the operand of a cast-expression that casts to the type void.

Array-to-pointer and function-to-pointer conversions are never applied to the value calculated by a discarded-value expression. The lvalue-to-rvalue conversion is applied if and only if the expression is a volatile-qualified glvalue and has one of the following forms (built-in meaning required, possibly parenthesized):

  • id-expression,
  • array subscript expression,
  • class member access expression,
  • indirection,
  • pointer-to-member operation,
  • conditional expression where both the second and the third operands are one of these expressions,
  • comma expression where the right operand is one of these expressions.

In addition, if the lvalue is of volatile-qualified class type, a volatile copy constructor is required to initialize the resulting rvalue temporary.

If the expression is a non-void prvalue (after any lvalue-to-rvalue conversion that might have taken place), temporary materialization occurs.

Compilers may issue warnings when an expression other than cast to void discards a value declared [[nodiscard]].

(since C++17)

Expression-equivalence

A number of expressions e1, e2, ..., eN are expression-equivalent if all following conditions are satisfied:

  1. They have the same effects.
  2. Either they are all constant subexpressions or neither is.
  3. Either they are all noexcept or else neither is.

e1 is expression-equivalent to e2 if and only if e1 and e2 are expression-equivalent (which means e2 is also expression-equivalent to e1).

(since C++20)

[edit] Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR Applied to Behavior as published Correct behavior
CWG 1054 C++98 assigning a value to a volatile variable might
result in an unnecessary read due to the lvalue-to-
rvalue conversion applied to the assignment result
introduce discarded-value expressions
and exclude this case from the list
of cases that require the conversion
CWG 1343 C++98 sequencing of destructor calls in
aggregate initialization was underspecified
full-expressions in aggregate initialization
are well-specified
CWG 1383 C++98 the list of expressions where lvalue-to-rvalue
conversion is applied to discarded-value
expressions also covered overloaded operators
only cover operators
with built-in meaning
CWG 1576 C++11 lvalue-to-rvalue conversions were not applied
to discarded-value volatile xvalue expressions
apply the conversion
in this case
CWG 2249 C++98 identifiers to be declared in declarators
were not id-expressions
they are
CWG 2431 C++11 the invocations of the destructors of temporaries that
are bound to references were not full-expressions
they are

[edit] See also

C documentation for Expressions