# Operator precedence for And/&& in Ruby

I have a question regarding the and/&&/= keywords in Ruby.

The ruby docs say that the precedence for the mentioned keywords is: (1)&&, (2)=, (3)and.

I have this snippet of code I wrote:

``````def f(n)
n
end

if a = f(2) and  b = f(4) then
puts "1) #{a} #{b}"
end

if a = f(2) &&  b = f(4) then
puts "2) #{a} #{b}"
end
``````

The output is:

1) 2 4 [Expected]

2) 4 4 [Why?]

For some reason using the && causes both a and b to evaluate to 4?

-

I don't quite understand the question you are asking. I mean, you have already given the answer yourself, before even asking the question: `&&` binds tighter than `=` while `and` binds less tightly than `=`.

So, in the first case, the expression is evaluated as follows:

``````( a=f(2) )  and  ( b=f(4) )
( a=  2  )  and  ( b=f(4) )
2     and  ( b=f(4) ) # a=2
2     and  ( b=  4  ) # a=2
2     and        4    # a=2; b=4
4    # a=2; b=4
``````

In the second case, the evaluation is as follows:

``````a   =   (  f(2) && ( b=f(4) )  )
a   =   (    2  && ( b=f(4) )  )
a   =   (    2  && ( b=  4  )  )
a   =   (    2  &&       4     ) # b=4
a   =                    4       # b=4
4       # b=4; a=4
``````
-

The reason is simple: precedence. As you say, the order is:

1. &&
2. =
3. and

Since `&&` has precedence over `=`, the statement is evaluated like this:

``````if a = (f(2) && (b = f(4))) then
``````

Which results in:

``````if a = (2 && 4) then
``````

When `x` and `y` are integers, `x && y` returns `y`. Thus `2 && 4` results in `a = 4`.

For comparison's sake, the first one is evaluated like this:

``````if (a = f(2)) and  (b = f(4)) then
``````
-
What I don't understand in your example is why it wouldn't be evaluated as: `if a = ( f(2) && b ) = f(4) then` –  nus Oct 16 at 16:02

From Programming Ruby 1.9:

The only difference in the two forms is precedence (`and` binds lower than `&&`).

-

I do not know the specific rules that can help in this situation, but let's use the priorities of operations. Using the rules of priorities, we can divide the computation of the second expression on several steps

``````1 f(2) &&  b => expr1
2 expr1 = f(4) => expr2
3 a = expr2
``````

Obvious that in Step 2 we get an incorrect situation - on the left side of = is rvalue - temporary object, which can not be assigning by any value. I assume that syntactic analyzer break the rules of priority evaluation of expressions when encounter such situations. More details on the calculations of expressions can be found here

-

if you modify your code like this you will get what you expect

``````def f(n)
n
end

if (a = f(2) and  b = f(4)) then
puts "1) #{a} #{b}"
end

if (a = f(2)  and  b = f(4)) then
puts "2) #{a} #{b}"
end
``````

1) 2 4

2) 2 4

-