.gitignore | ||
README.md |
Ginger
A lisp-like language built on the go programming language. The ideas are still a work-in-progress, and this repo is where I'm jotting down my notes.
Goals
I have some immediate goals I'm trying to achieve with this syntax:
-
Everything is strings (except numbers, functions, and data structures). There is no symbol type, atom type, keyword type, etc... they're all just strings.
-
There is no
defmacro
. Macro creation and usage is simply an inherent feature of the language syntax.
Walkthrough
This is a number which evalutates to 5:
5
This is a string, it can contain anything:
"! I'm the king of the world !"
This is a list. It evaluates to a linked-list of four strings:
("a" "b" "c" "d")
This is a vector of those same elements. It's like a list, but has some slightly different properties. We'll mostly be using lists:
["a" "b" "c" "d"]
This is a string
"+"
:
is the evaluator. A string beginning with :
is evaluated to whatever it
references. This evaluates to a function which adds its arguments:
":+"
This evaluates to list whose elements are a function and two numbers:
(":+" 1 2)
A list whose first element is a :
calls the second element as a function with
the rest of the elements as arguments. This evaluates to the number 5:
(":" ":+" 1 2)
A bare string (lacking in "
) is automatically prefixed with a :
, if it
doesn't already have one. So ":+"
, :+
, and +
, are equivalent. ":"
and
:
are also equivalent. This is equivalent to the previous example:
(: + 1 2)
The fn
function can be used to define a new function. Note the .
instead of
:
. We'll cover that in a bit. This evaluates to an anonymous function which
adds one to its argument and returns it:
(. fn [x]
(: + x 1))
The def
function can be used to bind some value to a new variable. This
defines a variable foo
which evaluates to the string "bar"
:
(. def foo "bar")
This defines a variable incr
which evaluates to a function which adds one to
its argument:
(. def incr
(. fn [x]
(: + x 1)))
This uses defn
as a shortcut for the above:
(. defn incr [x]
(: + x 1))
There are also maps. A map's keys can be any value(?). A map's values can be any value. This evaluates to a map with 2 key/val pairs:
{ "foo" foo
"bar" (: incr 4) }
.
is the half-evaluator. It only works on lists, and runs the function given
in the first argument with the unevaluated arguments (even if they have :
).
You can generate new code to run on the fly (macros) using the normal fn
. This
evaluates to a let
-like function, except it forces you to use the capitalized
variable names in the body (utterly useless):
#
# eval evaluates a given value (either a string or list). It has been
# implicitely called on all examples so far.
#
# elem-map maps over every element in a list, embedded or otherwise
#
# capitalize looks for the first letter in a string and capitalizes it
#
(. defn caplet [mapping body...]
(. eval
(. let
(: elem-map
(. fn [x]
(. if (: mapping (: slice x 1))
(: capitalize x)
x))
mapping)
body...)))
#Usage
(. caplet [foo "this is foo"
dog "this is dog"]
(: println Foo)
(: println Dog))