C++ Operator Precedence
The following table lists the precedence and associativity of C++ operators. Operators are listed top to bottom, in descending precedence.
Precedence | Operator | Description | Associativity |
---|---|---|---|
1 | :: | Scope resolution | Left-to-right |
2 | a++ a-- | Suffix/postfix increment and decrement | |
type() type{} | Functional cast | ||
a() | Function call | ||
a[] | Subscript | ||
. -> | Member access | ||
3 | ++a --a | Prefix increment and decrement | Right-to-left |
+a -a | Unary plus and minus | ||
! ~ | Logical NOT and bitwise NOT | ||
(type) | C-style cast | ||
*a | Indirection (dereference) | ||
&a | Address-of | ||
sizeof | Size-of[note 1] | ||
co_await | await-expression (C++20) | ||
new new[] | Dynamic memory allocation | ||
delete delete[] | Dynamic memory deallocation | ||
4 | .* ->* | Pointer-to-member | Left-to-right |
5 | a*b a/b a%b | Multiplication, division, and remainder | |
6 | a+b a-b | Addition and subtraction | |
7 | << >> | Bitwise left shift and right shift | |
8 | <=> | Three-way comparison operator (since C++20) | |
9 | < <= | For relational operators < and ≤ respectively | |
> >= | For relational operators > and ≥ respectively | ||
10 | == != | For relational operators = and ≠ respectively | |
11 | & | Bitwise AND | |
12 | ^ | Bitwise XOR (exclusive or) | |
13 | | | Bitwise OR (inclusive or) | |
14 | && | Logical AND | |
15 | || | Logical OR | |
16 | a?b:c | Ternary conditional[note 2] | Right-to-left |
throw | throw operator | ||
co_yield | yield-expression (C++20) | ||
= | Direct assignment (provided by default for C++ classes) | ||
+= -= | Compound assignment by sum and difference | ||
*= /= %= | Compound assignment by product, quotient, and remainder | ||
<<= >>= | Compound assignment by bitwise left shift and right shift | ||
&= ^= |= | Compound assignment by bitwise AND, XOR, and OR | ||
17 | , | Comma | Left-to-right |
- The operand of
sizeof
can't be a C-style type cast: the expressionsizeof (int) * p
is unambiguously interpreted as(sizeof(int)) * p
, but notsizeof((int)*p)
. - The expression in the middle of the conditional operator (between
?
and:
) is parsed as if parenthesized: its precedence relative to?:
is ignored.
When parsing an expression, an operator which is listed on some row of the table above with a precedence will be bound tighter (as if by parentheses) to its arguments than any operator that is listed on a row further below it with a lower precedence. For example, the expressions std::cout << a & b
and *p++
are parsed as (std::cout << a) & b
and *(p++)
, and not as std::cout << (a & b)
or (*p)++
.
Operators that have the same precedence are bound to their arguments in the direction of their associativity. For example, the expression a = b = c
is parsed as a = (b = c)
, and not as (a = b) = c
because of right-to-left associativity of assignment, but a + b - c
is parsed (a + b) - c
and not a + (b - c)
because of left-to-right associativity of addition and subtraction.
Associativity specification is redundant for unary operators and is only shown for completeness: unary prefix operators always associate right-to-left (delete ++*p
is delete(++(*p))
) and unary postfix operators always associate left-to-right (a[1][2]++
is ((a[1])[2])++
). Note that the associativity is meaningful for member access operators, even though they are grouped with unary postfix operators: a.b++
is parsed (a.b)++
and not a.(b++)
.
Operator precedence is unaffected by operator overloading. For example, std::cout << a ? b : c;
parses as (std::cout << a) ? b : c;
because the precedence of arithmetic left shift is higher than the conditional operator.
Notes
Precedence and associativity are compile-time concepts and are independent from order of evaluation, which is a runtime concept.
The standard itself doesn't specify precedence levels. They are derived from the grammar.
const_cast
, static_cast
, dynamic_cast
, reinterpret_cast
, typeid
, sizeof...
, noexcept
and alignof
are not included since they are never ambiguous.
Some of the operators have alternate spellings (e.g., and
for &&
, or
for ||
, not
for !
, etc.).
In C, the ternary conditional operator has higher precedence than assignment operators. Therefore, the expression e = a < d ? a++ : a = d
, which is parsed in C++ as e = ((a < d) ? (a++) : (a = d))
, will fail to compile in C due to grammatical or semantic constraints in C. See the corresponding C page for details.
See also
Common operators | ||||||
---|---|---|---|---|---|---|
assignment | increment decrement | arithmetic | logical | comparison | member access | other |
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Special operators | ||||||
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