Jordan Orelli 76bb79412f | 10 years ago | |
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cmd/moon | 10 years ago | |
grammar | 10 years ago | |
tests | 10 years ago | |
.gitignore | 10 years ago | |
README.md | 10 years ago | |
WHY.md | 10 years ago | |
args.go | 10 years ago | |
args_test.go | 10 years ago | |
doc.go | 10 years ago | |
doc_test.go | 10 years ago | |
emit.go | 10 years ago | |
emit_test.go | 10 years ago | |
eval_test.go | 10 years ago | |
ex.moon | 10 years ago | |
grammar.ebnf | 10 years ago | |
lex.go | 10 years ago | |
lex_test.go | 10 years ago | |
node.go | 10 years ago | |
parse.go | 10 years ago | |
parse_test.go | 10 years ago | |
req.go | 10 years ago |
README.md
Moon
Moon is a human-readable data exchange format designed to be used as a configuration language in software projects. This projects contains a description of Moon's grammar and a reference implementation of a moon interpreter written in Go. For some history as to why this project was seen as worthwhile, please see the WHY doc. For a description of Moon's design goals (and non-goals), please see the GOALS doc.
Instability
This project is not yet stable. Things may change. It's not recommended that you use this in any type of production system, since I can't guarantee future compatibility at this time.
Design
A Moon file is a human-readable description of an unordered collection of key-value pairs. Parsing a Moon document always yields either a Moon Document or an error.
The top level of a Moon document contains a series of key-value pairs separated with a colon:
Types
Moon defines the following types:
- integers: right now this is an int based on Go semantics; it's a 32 bit int on 32 bit CPUs, and a 64 bit int on 64 bit CPUs. These are some integers:
1
2
-1
-12348
0
+0
- floats: they're all float64. These are some floats:
1.0
1.2
-9.3
3.14
1e9
- complex numbers: they're complex128 values in Go. These are some complex numbers:
1+2i
-9+4i
- strings: they're strings. They're not explicitly required to be composed of UTF-8 runes but I haven't really been testing binary data, so for the moment, all bets are off here. They're quoted, but maybe I'll go back on that. These are strings:
this is a bare string
"this is a quoted string"
'this is also a quoted string'
inside of a bare string, "quotes" don't need to be escaped
but semicolons \;, colons \:, parens \( and \), brackets \[ and \] and braces \{ \} need to be escaped.
You can use single or double quotes. Escape quotes with a backslash. Quoted strings may contain newlines and special characters.
The following characters are special characters: :
, ;
, [
, ]
, #
,
{
, and }
. The colon is used to separate a key from a value. The
semicolon is used to terminate a bare string. A newline will also terminate
a bare string. A close bracket must be a special string in order to support
a bare string being the last element of a list, without requiring that you
add a semicolon after it. An open bracket doesn't need to be a special
character, but I made it a special character to be symetrical with the close
bracket. The same logic applies for braces.
-
objects: or maybe you call them hashes, objects, or associative arrays. Moon calls them objects, but you'd never know it because it's actually the
map[string]interface{}
type in Go, which is effectively the same thing. Keys are bare strings, but object keys may not contain spaces.These are some objects:
# key-value pairs are delimited by spaces; no commas are required
{name: "jordan" age: 28}
{
one: 1
two: two is also a number
pi: 3.14
}
# you may use a bare string as a value, but a semicolon is required to
# terminate the bare string
{name: jordan; age: 28}
- lists: they're
[]interface{}
values. They're not typed, and they can be heterogenous. Values are separated by spaces. I might put commas back in, that's kinda up in the air right now. These are some lists:
[1 2 3]
[
one
2
3.14
]
# this is a list of three elements
[moe; larry; curly]
# this is a list of one element
[moe larry curl]
- variables: a variable is indicated with a
@
character. A variable may refer to any key that has already been defined in the current moon document. Here is an example of how you would use a variable:
original_value: this is the original value, which is a string
duplicate_value: @original_value
If the name of a key begins with an @
character, it is a private key. A
private key may be referenced in the rest of the moon document, but it is not
available anywhere outside of the moon document parser. This is useful for
the composition of larger, nested values, without polluting the document's
root namespace. Here is an example of a private key:
@my_private_key: a great value
my_public_key: @my_private_key
This isn't particularly useful for simple values, but consider the following:
@prod: {
label: production
hostname: prod.example.com
port: 9000
user: prod-user
}
@dev: {
label: development
hostname: dev.example.com
port: 9200
user: dev-user
}
servers: [@prod @dev]
The only key in the root namespace of the document is servers
; the
individual server configs are considered only a part of the document. Since
we know that these values are private to the document itself, we know we are
free to modify them as we see fit, without affecting how the host program
sees the moon document.