# PebbLisp A very basic LISP implementation with an interpreter and editor written for the Pebble. # Writing in PebbLisp PebbLisp includes several built-ins functionalities. ## Def `def` stores a given object into the environment with the given symbol. The general form is: `(def symbol object)` As an example, to store a long greeting message into the short symbol `g`: `(def g "Hello, how are you today?")` `g` will then evaluate to `"Hello, how are you today"`. > Remember that defining an object with the same symbol as an object that already exists is possible, but deletes the original object from the environment! ## If `if` checks a given condition. If the condition evaluates to true, the first given expression is returned. If false, the second expression is returned. The general format is: `(if condition expr1 expr2)` The condition will typically be involve a comparison operator. For example: `(if (< 5 10) "Yee" "haw")` Would return `"Yee"`, as `(< 5 10)` aka `5 < 10` evaluates to true. ## Fn `fn` creates a lambda with a (theoretically) arbitrary number of arguments to be evaluated on call. The general form is: `(fn (arg-list) (lambda-body))` A lambda will commonly be stored under a `def` symbol, for example: `(def sq (fn (a) (* a a)))` Defines a simple lambda to square a given number. Calling it is as simple as `(sq 5)`, which returns `25`. Lambdas can also be applied anonymously, as in `((fn (a) (* a a)) 5)`, which also returns `25`, but this is most useful when using something like `map`. For example: `(map (fn (a) (* a a)) (1 2 3 5 8 13 21 34))` Uses an anonymous lambda to square each element in the list. This is particularly useful on a low-memory device like the Pebble, where it may be useful to avoid storing the named lambda object in the environment. ## Cat `cat` returns its arguments concatenated as strings. It has the same general form as arithmetic operators `(cat expr1 expr2 ...)` For example, combining numbers and strings: `(cat "There are " 5 " cats")` Would return `There are 5 cats`. A `cat` operation is applied implicitly when using `+` with strings, but this may result in confusing behavior when combined with number objects, due to the left-associativity of operators. For example, `(+ 5 10 " cats")` results in `15 cats` but `(+ "Cats: " 5 10)` results in `Cats: 510`. ## Map `map` applies a given lambda to each element in a given list and returns a list composed of each result. The general form of a `map` expression is `(map lambda (input-list))` For example, using a `sq` lambda: `(map sq (1 2 3 4 5 6 7 8 9 10)` Would return `( 1 4 9 16 25 36 49 64 81 100 )`, with each element being the square of the corresponding element in the input list. ## Fil `fil` returns a filtered list, based on a given list and a given condition. Partial function support in PebbLisp is nowhere near comprehensive, but `fil` operates on the bare notion that currently exists. The general form of a `fil` expression is `(fil (partial-condition) (candidate-list))` Each element in the candidate list is compared against the partial condition. If the comparison returns true, it is added to the returned list. For example `(fil (< 100) (20 150 30 200))` would return `( 150 200 )`, as no other elements fit the condition `(< 100 n)`.