Awesome
LYAML
Copyright (C) 2013-2023 Gary V. Vaughan
LibYAML binding for Lua, with a fast C implementation for converting between %YAML 1.1 and Lua tables, and a low-level YAML event parser for implementing more intricate YAML document loading.
Usage
High Level API
These functions quickly convert back and forth between Lua tables and %YAML 1.1 format strings.
local lyaml = require "lyaml"
local t = lyaml.load (YAML-STRING, [OPTS-TABLE])
local yamlstr = lyaml.dump (LUA-TABLE, [OPTS-TABLE])
local null = lyaml.null ()
lyaml.load
lyaml.load
accepts a YAML string for parsing. If the YAML string contains
multiple documents, only the first document will be returned by default. To
return multiple documents as a table, set all = true
in the second
argument OPTS-TABLE.
lyaml.load("foo: bar")
--> { foo = "bar" }
lyaml.load("foo: bar", { all = true })
--> { { foo = "bar" } }
multi_doc_yaml = [[
---
one
...
---
two
...
]]
lyaml.load(multi_doc_yaml)
--> "one"
lyaml.load(multi_doc_yaml, { all = true })
--> { "one", "two" }
You can supply an alternative function for converting implicit plain
scalar values in the implicit_scalar
field of the OPTS-TABLE argument;
otherwise a default is composed from the functions in the lyaml.implicit
module.
You can also supply an alternative table for coverting explicitly tagged
scalar values in the explicit_scalar
field of the OPTS-TABLE argument;
otherwise all supported tags are parsed by default using the functions
from the lyaml.explicit
module.
lyaml.dump
lyaml.dump
accepts a table of values to dump. Each value in the table
represents a single YAML document. To dump a table of lua values this means
the table must be wrapped in another table (the outer table represents the
YAML documents, the inner table is the single document table to dump).
lyaml.dump({ { foo = "bar" } })
--> ---
--> foo: bar
--> ...
lyaml.dump({ "one", "two" })
--> --- one
--> ...
--> --- two
--> ...
If you need to round-trip load a dumped document, and you used a custom
function for converting implicit scalars, then you should pass that same
function in the implicit_scalar
field of the OPTS-TABLE argument to
lyaml.dump
so that it can quote strings that might otherwise be
implicitly converted on reload.
Nil Values
Lua tables treat nil
valued keys as if they were not there,
where YAML explicitly supports null
values (and keys!). Lyaml
will retain YAML null
values as lyaml.null ()
by default,
though it is straight forward to wrap the low level APIs to use nil
,
subject to the usual caveats of how nil values work in Lua tables.
Low Level APIs
local emitter = require ("yaml").emitter ()
emitter.emit {type = "STREAM_START"}
for _, event in ipairs (event_list) do
emitter.emit (event)
end
str = emitter.emit {type = "STREAM_END"}
The yaml.emitter
function returns an emitter object that has a
single emit function, which you call with event tables, the last
STREAM_END
event returns a string formatted as a YAML 1.1
document.
local iter = require ("yaml").scanner (YAML-STRING)
for token_table in iter () do
-- process token table
end
Each time the iterator returned by scanner
is called, it returns
a table describing the next token of YAML-STRING. See LibYAML's
yaml.h for details of the contents and semantics of the various
tokens produced by yaml_parser_scan
, the underlying call made by
the iterator.
LibYAML implements a fast parser in C using yaml_parser_scan
, which
is also bound to lyaml, and easier to use than the token API above:
local iter = require ("yaml").parser (YAML-STRING)
for event_table in iter () do
-- process event table
end
Each time the iterator returned by parser
is called, it returns
a table describing the next event from the "Parse" process of the
"Parse, Compose, Construct" processing model described in the
YAML 1.1 specification using LibYAML.
Implementing the remaining "Compose" and "Construct" processes in
Lua is left as an exercise for the reader -- though, unlike the
high-level API, lyaml.parser
exposes all details of the input
stream events, such as line and column numbers.
Installation
There's no need to download an lyaml release, or clone the git repo, unless you want to modify the code. If you use LuaRocks, you can use it to install the latest release from its repository:
luarocks --server=http://rocks.moonscript.org install lyaml
Or from the rockspec in a release tarball:
luarocks make lyaml-?-1.rockspec
To install current git master from GitHub (for testing):
luarocks install http://raw.github.com/gvvaughan/lyaml/master/lyaml-git-1.rockspec
To install without LuaRocks, clone the sources from the repository, and then run the following commands:
cd lyaml
build-aux/luke LYAML_DIR=LIBYAML-INSTALL-PREFIX
sudo build-aux/luke PREFIX=LYAML-INSTALL-PREFIX install
specl -v1freport spec/*_spec.yaml
The dependencies are listed in the dependencies entry of the file rockspec.
Bug reports and code contributions
This library is maintained by its users.
Please make bug reports and suggestions as GitHub Issues. Pull requests are especially appreciated.
But first, please check that your issue has not already been reported by someone else, and that it is not already fixed by master in preparation for the next release (see Installation section above for how to temporarily install master with LuaRocks).
There is no strict coding style, but please bear in mind the following points when proposing changes:
-
Follow existing code. There are a lot of useful patterns and avoided traps there.
-
3-character indentation using SPACES in Lua sources: It makes rogue TABs easier to see, and lines up nicely with 'if' and 'end' keywords.
-
Simple strings are easiest to type using single-quote delimiters, saving double-quotes for where a string contains apostrophes.
-
Save horizontal space by only using SPACEs where the parser requires them.
-
Use vertical space to separate out compound statements to help the coverage reports discover untested lines.
-
Prefer explicit string function calls over object methods, to mitigate issues with monkey-patching in caller environment.