There are **three relevant differences** between the operators `&&`

/`||`

and `&`

/`|`

, which are explained in the official documentation. Here’s a summary:

### 1. `&`

and `|`

are *vectorised*

This means that if you want to perform element-wise logical operations on vectors you should use `&`

and `|`

:

```
a = c(TRUE, TRUE, FALSE, FALSE)
b = c(TRUE, FALSE, TRUE, FALSE)
a | b
# [1] TRUE TRUE TRUE FALSE
a || b
# Error in a || b : 'length = 4' in coercion to 'logical(1)'
```

In previous versions of R, `a || b`

(and `a && b`

) did not cause an error. Instead, the operations silently truncated the output (only the first element was returned; before making this an error it briefly caused a warning in R 4.2).

### 2. `&&`

and `||`

are *short-circuited*

Short-circuiting means that the right-hand side of the expression is only evaluated if the left-hand side does not already determine the outcome. Pretty much every programming language does this for conditional operations, since it leads to handy idioms when writing `if`

conditions, e.g.:

```
if (length(x) > 0L && x[1L] == 42) …
```

This code relies on short-circuiting: without it, the code would fail if `x`

is empty, since the right-hand side attempts to access a non-existent element. Without short-circuiting, we would have to use nested `if`

blocks, leading to more verbose code:

```
if (length(x) > 0L) {
if (x[1L] == 42) …
}
```

As a general rule, inside a conditional expression (`if`

, `while`

) you should *always* use `&&`

and `||`

, even if short-circuiting isn’t required: it’s more idiomatic, and leads to more uniform code.

### 3. `&`

and `|`

can perform *bitwise arithmetic*

In many (most?) programming languages, `&`

and `|`

actually perform bitwise arithmetic instead of Boolean arithmetic. That is, for two integers `a`

and `b`

, `a & b`

calculates the *bitwise and*, and `a | b`

calculates the *bitwise or*. For Boolean values there’s no difference between bitwise and logical operations; but for arbitrary integers, the result differs. For instance, `1 | 2 == 3`

in most programming languages.

However, this is *not* true for R: R coerces numeric arguments of `&`

and `|`

to logical values and performs Boolean arithmetic.

… except when both arguments are of type `raw`

:

```
c(1, 3) | c(2, 4)
# [1] TRUE TRUE
as.raw(c(1, 3)) | as.raw(c(2, 4))
# [1] 03 07
```

It is worth noting that the operations `!`

(logical negation) and `xor`

also perform bitwise arithmetic when called with `raw`

arguments.

`&&`

and`||`

behaves differently than unspecified "other languages" which do not evaluate a second argument when the first is determinate is simply FALSE.1more comment