Operator Precedence

Operator precedence determines how operators are parsed. Operators with higher precedence become the operands of operators with lower precedence. For example, in the expression 1 + 5 * 3, the answer is 16 and not 18 because the multiplication (*) operator has a higher precedence than the addition (+) operator. Parentheses may be used to force precedence, if necessary. For instance: (1 + 5) * 3 evaluates to 18.

Associativity

When operators have equal precedence their associativity determines how the operators are grouped. For example - is left-associative, so 1 - 2 - 3 is grouped as (1 - 2) - 3 and evaluates to -4. = on the other hand is right-associative, so let a = b = c is grouped as let a = (b = c).

Operators of equal precedence that are non-associative cannot be used next to one another. For example:

new new Foo();

is illegal in Zephir, because the new is non-associative. At the moment, new is the only non-associative operator in Zephir.

Use of parentheses, even when not strictly necessary, can often increase readability of the code, by making grouping explicit, rather than relying on the implicit operator precedence and associativity.

Precedence Table

The following table lists the operators in order of precedence, with the highest-precedence ones at the top. Operators on the same line have equal precedence, in which case associativity decides grouping.

Precedence Операторы Operator type Associativity
1 -> Member Access right-to-left
2 ~ Bitwise NOT right-to-left
3 ! Logical NOT right-to-left
4 new new non-associative
5 clone clone right-to-left
6 typeof Type-of right-to-left
7 .., ... Inclusive/exclusive range left-to-right
8 isset, fetch, empty Exclusive range right-to-left
9 *, /, % Multiplication, Division, Remainder left-to-right
10 +, -, . Addition, Subtraction, Concat left-to-right
11 <<, >> Bitwise shift left/right left-to-right
12 <, <=, =>, > Comparison left-to-right
13 ==, !==, ===, !== Comparison left-to-right
14 & Bitwise AND, references left-to-right
15 ^ Bitwise XOR left-to-right
16 | Bitwise OR left-to-right
17 instanceof Instance-of left-to-right
18 && Logical AND left-to-right
19 || Logical OR left-to-right
20 likely, unlikely Branch prediction right-to-left
21 ? Logical right-to-left
21 => Closure Arrow right-to-left