Expressions

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).

General

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

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[b] a &a a->b a.b a->b a.*b	a(...) a, b ? :
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)

operator precedence defines the order in which operators are bound to their arguments
alternative representations are alternative spellings for some operators
operator overloading makes it possible to specify the behavior of the operators with user-defined classes.

Conversions

standard conversions implicit conversions from one type to another
const_cast conversion
static_cast conversion
dynamic_cast conversion
reinterpret_cast conversion
explicit cast conversion using C-style cast notation and functional notation
user-defined conversion makes it possible to specify conversion from user-defined classes

Memory allocation

new expression allocates memory dynamically
delete expression deallocates memory dynamically

Other

constant expressions can be evaluated at compile time and used in compile-time context (template arguments, array sizes, etc)
sizeof
alignof
typeid
throw-expression

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:

1) Literals (e.g. 2 or "Hello, world")

2) Suitably declared unqualified identifiers (e.g. n or cout)

3) Suitably declared qualified identifiers (e.g. std::string::npos)

4) Lambda-expressions (C++11)

5) Fold-expressions (C++17)

6) Requires-expressions (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.

Literals

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

integer literals are decimal, octal, hexadecimal or binary numbers of integer type.
character literals are individual characters of type

char or wchar_t
char16_t or char32_t (since C++11)
char8_t (since C++20)

floating-point literals are values of type float, double, or long double
string literals are sequences of characters of type

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

boolean literals are values of type bool, that is true and false
nullptr is the pointer literal which specifies a null pointer value (since C++11)
user-defined literals are constant values of user-specified type (since C++11)

Unevaluated expressions

The operands of the operators typeid, sizeof, noexcept, and decltype (since C++11) are expressions that are not evaluated (unless they are polymorphic glvalues and are the operands of typeid), since these operators only query the compile-time properties of their operands. Thus, std::size_t n = sizeof(std::cout << 42); does not perform console output.

The unevaluated operands are considered to be full expressions even though they are syntactically operands in a larger expression (for example, this means that sizeof(T()) requires an accessible T::~T)

(since C++14)

The requires-expressions are also unevaluated expressions.

An invocation of an immediate function is always evaluated, even in an unevaluated operand.

(since C++20)

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 argument of the built-in comma operator, or the argument 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)

Language
Standard Library Headers
Freestanding and hosted implementations
Named requirements
Language support library
Concepts library (C++20)
Diagnostics library
Utilities library
Strings library
Containers library
Iterators library
Ranges library (C++20)
Algorithms library
Numerics library
Input/output library
Localizations library
Regular expressions library (C++11)
Atomic operations library (C++11)
Thread support library (C++11)
Filesystem library (C++17)
Technical Specifications

General
value categories (lvalue, rvalue, xvalue)
order of evaluation (sequence points)
constant expressions
unevaluated expressions
primary expressions
lambda-expression(C++11)
Literals
integer literals
floating-point literals
boolean literals
character literals including escape sequences
string literals
null pointer literal(C++11)
user-defined literal(C++11)
Operators
Assignment operators: `a=b`, `a+=b`, `a-=b`, `a*=b`, `a/=b`, `a%=b`, `a&=b`, `a\|=b`, `a^=b`, `a<<=b`, `a>>=b`
Increment and decrement: `++a`, `--a`, `a++`, `a--`
Arithmetic operators: `+a`, `-a`, `a+b`, `a-b`, `a*b`, `a/b`, `a%b`, `~a`, `a&b`, `a\|b`, `a^b`, `a<<b`, `a>>b`
Logical operators: `a\|\|b`, `a&&b`, `!a`
Comparison operators: `a==b`, `a!=b`, `a<b`, `a>b`, `a<=b`, `a>=b`, `a<=>b`(C++20)
Member access operators: `a[b]`, `a`, `&a`, `a->b`, `a.b`, `a->b`, `a.*b`
Other operators: `a(...)`, `a,b`, `a?b:c`
Default comparisons(C++20)
Alternative representations of operators
Precedence and associativity
Fold expression(C++17)
new-expression
delete-expression
throw-expression
alignof
sizeof
sizeof...(C++11)
typeid
noexcept(C++11)
Operator overloading
Conversions
Implicit conversions
const_cast
static_cast
reinterpret_cast
dynamic_cast
Explicit conversions `(T)a`, `T(a)`
User-defined conversion