To elaborate a little and add some more relevant info (it took me a little while to figure out the accepted answer, and I'm clearly not alone looking at the other answers, also, the accepted answer only works for one type of Raphael object: it solves the original question, this is a more complete resource).
Detecting Raphael elements
x.constructor.prototype == Raphael.el, you're taking
x, the variable that might be a Raphael element (circle, path etc - not a Raphael
paper object) and comparing the prototype of the function that constructed it with the prototype for Raphael elements in Raphael itself (Raphael is a function object, el is a defined property of it).
This works, but it also won't find raphael objects based on different prototypes to Raphael.el, like sets and paper objects:
Detecting Raphael sets
If you wanted to test if something was a Raphael set, the set prototype is in
Raphael.st so you could test if a variable is a Raphael set using:
someSet.constructor.prototype == Raphael.st
Detecting Raphael paper objects
As for the equivalent for sniffing Raphael paper objects, since they are created using
Raphael() function, you can use:
paper.constructor.prototype == Raphael.prototype
The above three are basically the same as...
someSet.constructor.prototype == paper.circle().constructor.prototype
someSet.constructor.prototype == paper.set().constructor.prototype
someSet.constructor.prototype == Raphael().constructor.prototype
...but without actually running those functions, so avoiding wasted processing (and avoiding Raphael() complaining that it hasn't been passed an ID).
Detecting sub-types of object (e.g. rectangle, circle...)
None of the above works for subtypes of Raphael elements - e.g. if you compare a circle with
R.rect().constructor.prototype, it returns
This is because both circles and rectangles are made using the element prototype defined in
Raphael.el. For these, however, Raphael makes it easy:
someRectangle.type == "rect"
someCircle.type == "circle"