data-object-yaml-0.3.4: Serialize data to and from Yaml files (deprecated)

Data.Object.Yaml

Contents

Description

As a bit of background, this package is built on a few other packages I wrote. yaml is a low-level wrapper around the C libyaml library, with an enumerator interface. data-object is a package defining a data type:

    data Object k v = Scalar v
                    | Sequence [Object k v]
                    | Mapping [(k, Object k v)]

In other words, it can represent JSON data fully, and YAML data almost fully. In particular, it doesn't handle cyclical aliases, which I hope doesn't really occur too much in real life.

Another package to deal with is failure: it basically replaces using an Either for error-handling into a typeclass. It has instances for Maybe, IO and lists by default.

The last package is convertible-text, which is a fork of John Goerzen's convertible package. The difference is it supports both conversions that are guaranteed to succeed (Int -> String) and ones which may fail (String -> Int), and also supports various textual datatypes (String, lazy/strict ByteString, lazy/string Text).

YamlScalar and YamlObject

We have a type YamlObject = Object YamlScalar YamlScalar, where a YamlScalar is just a ByteString value with a tag and a style. A "style" is how the data was represented in the underlying YAML file: single quoted, double quoted, etc.

Then there is an IsYamlScalar typeclass, which provides fromYamlScalar and toYamlScalar conversion functions. There are instances for all the "text-like" datatypes: String, ByteString and Text. The built-in instances all assume a UTF-8 data encoding. And around this we have toYamlObject and fromYamlObject functions, which do exactly what they sound like.

Encoding and decoding

There are two encoding files: encode and encodeFile. You can guess the different: the former produces a ByteString (strict) and the latter writes to a file. They both take an Object, whose keys and values must be an instance of IsYamlScalar. So, for example:

    encodeFile myfile.yaml $ Mapping
        [ (Michael, Mapping
            [ (age, Scalar 26)
            , (color, Scalar blue)
            ])
        , (Eliezer, Mapping
            [ (age, Scalar 2)
            , (color, Scalar green)
            ])
        ]

decoding is only slightly more complicated, since the decoding can fail. In particular, the return type is an IO wrapped around a Failure. For example, you could use:

    maybeObject <- decodeFile myfile.yaml
    case maybeObject of
        Nothing -> putStrLn Error parsing YAML file.
        Just object -> putStrLn Successfully parsed.

If you just want to throw any parse errors as IO exception, you can use join:

    import Control.Monad (join)
    object <- join $ decodeFile myfile.yaml

This takes advantage of the IO instance of Failure.

Parsing an Object

In order to pull the data out of an Object, you can use the helper functions from Data.Object. For example:

    import Data.Object
    import Data.Object.Yaml
    import Control.Monad

main = do
        object <- join $ decodeFile myfile.yaml
        people <- fromMapping object
        michael <- lookupMapping Michael people
        age <- lookupScalar age michael
        putStrLn $ Michael is  ++ age ++  years old.

lookupScalar and friends implement Maybe, so you can test for optional attributes by switching on Nothing/Just a:

    name <- lookupScalar middleName michael :: Maybe String

And that's it

There's really not more to know about this library. Enjoy!

Synopsis

Definition of YamlObject

Automatic scalar conversions

Encoding/decoding

Exceptions