# JavaScript truthiness in boolean to numbers comparison

I'm new to JavaScript and I'm trying to learn it from internet resources. While I'm aware that there will plenty of cr*p material, one thing most people seemed to agree is the truthiness of things in JS (just to give a example go here)

Now I found this odd thing in my experiments:

`(true == 2)` is `false`. why?

As far as I know, `2` is a non zero number, so it should be evaluated as `true`.

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This is because when either operand of an equivalence operator is a number, in nearly all cases the other operand is converted to a number and then the result is compared. So you're ending up comparing `1` with `2`, not `true` with `true`. The only exceptions to that rule are `null`, `undefined`, and objects whose default value (see off-topic below) is `null` or `undefined`; comparing a number to those returns `false` (even though `Number(null)` is `0`; don't ask).

Details in the specification, Section 11.9.3: "The Abstract Equality Comparison Algorithm" (HTML version):

The comparison x == y, where x and y are values, produces true or false. Such a comparison is performed as follows:

1. If Type(x) is the same as Type(y), then

1. If Type(x) is Undefined, return true.

2. If Type(x) is Null, return true.

3. If Type(x) is Number, then

1. If x is NaN, return false.

2. If y is NaN, return false.

3. If x is the same Number value as y, return true.

4. If x is +0 and yis −0, return true.

5. If x is −0 and y is +0, return true.

6. Return false.

4. If Type(x) is String, then return true if x and y are exactly the same sequence of characters (same length and same characters in corresponding positions). Otherwise, return false.

5. If Type(x) is Boolean, return true if x and y are both true or both false. Otherwise, return false.

6. Return true if x and y refer to the same object. Otherwise, return false.

2. If x is null and y is undefined, return true.

3. If x is undefined and y is null, return true.

4. If Type(x) is Number and Type(y) is String,
return the result of the comparison x == ToNumber(y).

5. If Type(x) is String and Type(y) is Number,
return the result of the comparison ToNumber(x) == y.

6. If Type(x) is Boolean, return the result of the comparison ToNumber(x) == y.

7. If Type(y) is Boolean, return the result of the comparison x == ToNumber(y).

8. If Type(x) is either String or Number and Type(y) is Object,
return the result of the comparison x == ToPrimitive(y).

9. If Type(x) is Object and Type(y) is either String or Number,
return the result of the comparison ToPrimitive(x) == y.

10. Return false.

If you wanted to check that they were both truthy or both falsey, you could use the bang (`!`) or double-bang (`!!`) idiom to coerce them both to booleans:

``````var a = true,
b = 2;
alert(a == b);     // "false", 1 !== 2
alert(!!a == !!b); // "true", true === true
alert(!a == !b);   // "true", false === false
a = false;
b = 0;
alert(a == b);     // "true", 0 === 0
alert(!!a == !!b); // "true", false === false
alert(!a == !b);   // "true", true === true
``````

...but usually using `==` or `!=` with booleans isn't ideal. But it does come up.

I tend to use the double-bang, but in JavaScript there's no reason to over the bang. (There's an argument for the double over the single in some other languages, though it's a weak one related to consistency with `if (!!x)`. In JavaScript you never need the double-bang in the `if (x)` case, so...)

(Off-topic: The default value of most JavaScript objects is a string, though frequently one like "[object Object]" that ends up being `NaN` if you convert it to a number; but constructor functions can override that behavior via `valueOf` and `toString`. The default value of host objects is up to the host environment.)

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The boolean `true` constant is promoted to a number, that being 1.

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With non-strict comparison (`==`) if the operands are not of the same type, they will be casted/coerced and strictly compared, with first preference being to numbers if either operand is a number or boolean (MDN).

So `true == 2` evaluates to `Number(true) === 2` which is `1 === 2`, which is false.

Of course you can always force things to compare as you want them to, which is explicit and can solve hard-to-find problems later on:

`true === Boolean(2)` is true.

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