I am confused with & and &&. I have two PHP books. One says that they are same, but the another says they are different. I thought they are same as well.

Aren't they same?

  • 1
    They are both the same thing, they're just used for two different things to accomplish the same task. – animuson Mar 4 '10 at 1:42
up vote 79 down vote accepted

& is bitwise AND. See Bitwise Operators. Assuming you do 14 & 7:

    14 = 1110
     7 = 0111
14 & 7 = 0110 = 6

&& is logical AND. See Logical Operators. Consider this truth table:

 $a     $b     $a && $b
false  false    false
false  true     false
true   false    false
true   true     true
  • 6
    I'll add that when you are comparing booleans or integers, and treating the result as a boolean, then they appear to be the same. – kibibu Mar 4 '10 at 1:52
  • 1
    @kibibu: true, PHP's type juggling can complicate the comparison. – cletus Mar 4 '10 at 2:10
  • @kibibu, Does the interpreter consider them equal? Or will different machine code be runned depending on which one is used? – Pacerier Mar 30 '15 at 11:55
  • @Pacerier They are definitely different -- look at the return results in the example. In a boolean context (an if statement), the correct branch is taken, but other than that there is nothing one borrows from the other. Except at the bit level.. – Gerard ONeill Apr 16 '15 at 14:29
  • 5
    @kibibu not necessarily at all. 2 & 1 (binary 10 & 01) is 0 which is falsey, but 2 && 1 should be true if PHP is at all reasonable... – Muzer Aug 19 '15 at 8:48

The other answers are correct, but incomplete. A key feature of logical AND is that it short-circuits, meaning the second operand is only evaluated if necessary. The PHP manual gives the following example to illustrate:

$a = (false && foo());

foo will never be called, since the result is known after evaluating false. On the other hand with

$a = (false & foo());

foo will be called (also, the result is 0 rather than false).


AND operation: 

& -> will do the bitwise AND operation , it just doing operation based on
      the bit values. 
&&   -> It will do logical AND operation. It is just the check the values is 
       true or false. Based on the boolean value , it will evaluation the 
  • what is the difference between logical and boolean bitwise? they are the same. – avasin Jun 21 '13 at 15:06
  • @avasin Logical AND performs a short-circuited (see Matthew Flaschen's answer) and operation on the boolean values of its operands and evaluates to a boolean value, whereas bitwise AND performs the and operation on each individual bit of each of its operands. So 0b0011 && 0b0110 evaluates to TRUE, but 0b0011 & 0b0110 evaluates to 0b0010. – Xenon Jul 31 '17 at 21:36

As the others are saying, a single & is bit-wise. It basically converts the left-hand value into its bits representation, and the right hand side into bits representation as well, then performs logical AND between them and outputs the result.

Double && is either true or false, (in some languages 0 or 1) if both left and right side are true (or non-zero).

I'd also add that this is not just in PHP. It is like that in many many other languages as well, like C, Java, Ruby, etc.

Matthew's answer about how Logical And && operator is the biggest difference; logical comparison will stop when it will find something that breaks the chain. In addition, one more big difference it the result type/value.


By using the Logical And &&, it will always return a Boolean type/value, true or false.

false & 1 // int(0)
false && 1 // bool(false)

It is important to use Boolean type/values when returning a function with a logical result, because someone can use the Identical comparison operator === to compare the results (which is high likely to happen) and it will fail if you use something like this:

(false & 1) === false // bool(false)
(true & true) === true // bool(false)

Never use Bitwise And & when you need to make a logical comparison and especially when returning values from functions with logical results. Instead use the Logical And &&:

(false && 1) === false // bool(true)
(true && true) === true // bool(true)

When comparing characters, Logical And && will always result to true, even with NUL character, unless if it's converted to an integer:

'A' && 'B' // bool(true)
'A' && 0 // bool(false)
'A' && '\0' // bool(true)
'A' && (int)'\0' // bool(false)

If you use the Bitwise And & with characters, it will result the character corresponding to the Bitwise And operation between those two characters:

'A' & 'B' // string(1) "@"

01000001 // ASCII 'A'
01000010 // ASCII 'B'
01000000 // ASCII '@'

Beware the usage of the Bitwise And & when using with types other than Integers and Characters (which are special kind of integers). For example, if you use it with real numbers float/double, then it can result to 0 even if both operands are NOT 0:

1.0 & 1.0 // int(1)
2.0 & 1.0 // int(0)

1.0 && 1.0 // bool(true)
2.0 && 1.0 // bool(true)

In addition, if we go at assembly instructions level, we can see that difference and how the compiler manages to handle so the Logical And && uses cmp <var>, 0 to compare and does not continue executing if one operand fails; Bitwise And uses and <var1>, <var2> to make a bitwise result and then test if it's of 0 value. I know this question is tagged for and behavior may be different than , but I'll use a small program to demonstrate how compiler behaves when using Logical and Bitwise And.

Let's assume we have a program in that uses both Bitwise and Logical And:

int a = 0;
int b = 1;
int c = 2;

if (a & b)
    c = 3;

if (a && b)
    c = 4;

The compiler will generate the following assembly opcodes (W32Dasm result for x86; I have changed the memory addresses with <variable> names for simplicity and to be more understandable):

:0229  mov <a>, 0
:0230  mov <b>, 1
:0237  mov <c>, 2
// if (a & b) begins
:023E  mov eax, <a>
:0241  and eax, <b>        // a bitwise and b, result stored to eax
:0244  test eax, eax       // test eax and set ZeroFlag if equals to 0
:0246  je 024F             // >---  Jump if ZeroFlag is set
:0248  mov <c>, 3          //    |  or set c = 3
// if (a && b) begins            |
:024F  cmp <a>, 0          // <---  compare a to 0 and sets ZeroFlag if difference is 0
:0253  je 0262             // >---  Jump if ZeroFlag is set (a == 0)
:0255  cmp <b>, 0          //    |  compare b to 0 and sets ZeroFlag if differemce is 0
:0259  je 0262             //    |  >--- Jump if ZeroFlag is set (b == 0)
:025B  mov <c>, 4          //    |     | or set c = 4
:0262  <program continues> // <---  <---

The compiler not only uses different instructions to compare between the Logical and Bitwaise And, but at the line :0253 in if (a && b) logical comparison, we see that if a == 0 then it jumps and does not check for the rest operands.

So, I disagree to animuson's comment:

They are both the same thing, they're just used for two different things to accomplish the same task. – animuson Mar 4 '10 at 1:42

They are not the same thing and both are/(should be) used for specific tasks depending on the programs' logic/flow.

&& is & performed on operands reduced to either 1 or 0.

(In other words, && is a bitwise operator under the caveat that it changes its operands. That is, logical operations are a subset of bitwise operations.)

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