# operator precedence and associativity with Math.Floor(Math.Random())

I understand how the code works, in terms of the results it gives. First, it gets a random number, and, second, using Math.floor() it rounds down the results of Math.Random. Therefore, it's moving from right to left through the code.

``````Math.floor(Math.Random * num);
``````

In the JavaScript Reference at this url and shown in the image below

it says that, for dot and parentheses, the associativity is "left to right". However, based on the code I excerpted above, I'd say it was "right to left." Please explain

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associativity != execution order – Bergi Dec 12 '12 at 22:40
right to left would mean: `Math.(floor(num))` with error "floor is undefined" – chumkiu Dec 12 '12 at 23:01

The associativity of operators has nothing to with their execution order, but how they are parsed.

Associativity "Left to right" means that `a.b.c === (a.b).c !== a.(b.c)`.

When you have a function invocation, of course the arguments are evaluated first (at least in non-lazy languages like JS) - this is also defined in the specification.

What happens here is:

• `Math.floor(Math.Random * num);` is parsed into an AST, according to the rules of operator precedence and associativity:

``````-\ invocation
+-\ function: member operator
| +-- base: variable "Math"
| +-- property: "floor"
+-\ arguments list
+-\ first: Multiplication
+-\ left operand: member operator
| +-- base: variable "Math"
| +-- property: "Random"
+-- right operand: variable "num"
``````
• When evaluated, it happens top-down. The invocation first evaluates its function, calling the member operator on `Math` and `floor`. As this evaluates to a vaild function, it proceeds evaluating the arguments. The multiplication will first fetch its left operand, getting undefined from the member operator on `Math` and `Random`; then it fetches the value of the variable `num`. This results in `NaN`, and now the floor-function will be called with that, returning `NaN` again.
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A function cannot be called without its arguments being resolved. This not not a matter of operator precedence (but execution order). The reason why a function call is left-associative is to make e.g. the following call work properly:

``````foo.bar.baz()
``````

With the operator being left-associative this is equal to

``````((foo.bar).baz)()
``````

which is equal to the original code. If it was right-associative you'd get the following:

``````foo.(bar.(baz())
``````

That would obviously do something totally different which would most likely not work at all.

By the way, the function call is on a different precedence level than the member operators. See MDN for a better reference about this topic than the one you linked in your question.

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