# Darts Welcome to Darts on Exercism's Pharo Track. If you need help running the tests or submitting your code, check out `HELP.md`. ## Instructions Write a function that returns the earned points in a single toss of a Darts game. [Darts][darts] is a game where players throw darts at a [target][darts-target]. In our particular instance of the game, the target rewards 4 different amounts of points, depending on where the dart lands: ![Our dart scoreboard with values from a complete miss to a bullseye](https://assets.exercism.org/images/exercises/darts/darts-scoreboard.svg) - If the dart lands outside the target, player earns no points (0 points). - If the dart lands in the outer circle of the target, player earns 1 point. - If the dart lands in the middle circle of the target, player earns 5 points. - If the dart lands in the inner circle of the target, player earns 10 points. The outer circle has a radius of 10 units (this is equivalent to the total radius for the entire target), the middle circle a radius of 5 units, and the inner circle a radius of 1. Of course, they are all centered at the same point — that is, the circles are [concentric][] defined by the coordinates (0, 0). Write a function that given a point in the target (defined by its [Cartesian coordinates][cartesian-coordinates] `x` and `y`, where `x` and `y` are [real][real-numbers]), returns the correct amount earned by a dart landing at that point. ## Credit The scoreboard image was created by [habere-et-dispertire][habere-et-dispertire] using [Inkscape][inkscape]. [darts]: https://en.wikipedia.org/wiki/Darts [darts-target]: https://en.wikipedia.org/wiki/Darts#/media/File:Darts_in_a_dartboard.jpg [concentric]: https://mathworld.wolfram.com/ConcentricCircles.html [cartesian-coordinates]: https://www.mathsisfun.com/data/cartesian-coordinates.html [real-numbers]: https://www.mathsisfun.com/numbers/real-numbers.html [habere-et-dispertire]: https://exercism.org/profiles/habere-et-dispertire [inkscape]: https://en.wikipedia.org/wiki/Inkscape The Pythagorean theorum will help. ## Source ### Created by - @macta ### Contributed to by - @bencoman ### Based on Inspired by an exercise created by a professor Della Paolera in Argentina