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gonf

Package gonf implements a simple configuration file format.

Below is an example to introduce you to the format.

# any.conf

database {
    host 127.0.0.1
    schema test
    auth {
        user testuser
        pass testpass
    }
}

fruits [
    pear
    orange
    lemon
    papaya
]

As intuitively noted, the format supports tables (maps), arrays and string literals. This should be all you need.

Given the above file, here is a practical code example:

package main

import (
    "os"
    "fmt"
    "github.com/xrash/gonf"
)

func main() {
    file, _ := os.Open("any.conf")
    config, _ := gonf.Read(file)

    fmt.Println(config.String("database", "host")) // 127.0.0.1
    fmt.Println(config.String("database", "auth", "user")) // testuser
    fmt.Println(config.String("fruits", 0)) // pear
    fmt.Println(config.String("fruits", 1)) // orange
}

Mapping

You can also directly map your config to a struct. Example:

package main

import (
    "os"
    "fmt"
    "github.com/xrash/gonf"
)

type Database struct {
    Host string `gonf:"host"`
    Schema string `gonf:"schema"`
    Auth struct {
        User string `gonf:"user"`
        Pass string `gonf:"pass"`
    } `gonf:"auth"`
}

func main() {
    database := new(Database)

    file, _ := os.Open("any.conf")
    config, _ := gonf.Read(file)
    config, _ = config.Get("database")

    config.Map(database)
    fmt.Println(database.Schema) // test
    fmt.Println(database.Auth.User) // testuser
}

NOTE: The struct fields have to be exported so the Map function can see them through reflection

Semantic key merging

One nice feature is the automatic merge of multiple equal keys into an array. Consider the following example:

song {
    name "Naked Tongues"
    artist Perturbator
}
	
song {
    name "Battle of the Young"
    artist ZeroCall
}

This will be translated in a semantic analyzing phase to:

song [
    {
        name "Naked Tongues"
        artist Perturbator
    }
    {
        name "Battle of the Young"
        artist ZeroCall
    }
]

And can therefore be accessed like this:

config.String("song", 0, "name") // Naked Tongues
config.String("song", 1, "artist") // ZeroCall

Traversing non-scalar types

A problem that arises in practice is the need to traverse through non-scalar types. In gonf, we got tables and arrays, and both can be traversed. The order of elements in a table may not be guaranteed by the implementation, but the order in an array is expected to be guaranteed in any implementation. There are two ways to traverse through these types:

Using traversing functions

config.TraverseTable(func(key string, value gonf.*Config) {
    fmt.Println(key, value)
})
config.TraverseArray(func(index int, value gonf.*Config) {
    fmt.Println(index, value)
})

Using the underlying data structure

a := config.Array()
	
for key, value := range a {
    fmt.Println(key, value)
}

t := config.Table()

for key, value := range t {
    fmt.Println(key, value)
}

If you need to check which type the Config object holds, you can use the functions:

config.IsString()
config.IsArray()
config.IsTable()

More examples

You are encouraged to see the working examples in tests/gonf_test.go.

Help for implementers

Here is the LL(1) grammar:

pair -> key value pair | &
key -> string
value -> table | array | string
table -> { pair }
array -> [ values ]
values -> value values | &
string -> quoted-string | unquoted-string
quoted-string -> " LITERAL "
unquoted-string -> SYMBOL

LITERAL => <ANYTHING SUPPORTED BY THE IMPLEMENTATION>
SYMBOL => <NONSPACED-LITERAL>

the golang string specification

Below is the predict table:

production stack
pair -> key value pair " SYMBOL
pair -> & &
key -> string " SYMBOL
value -> table {
value -> array [
value -> string " SYMBOL
table -> { pair } {
array -> [ values ] [
values -> value values { [ " SYMBOL
values -> & &
string -> quoted-string "
string -> unquoted-string SYMBOL
quoted-string -> " LITERAL " "
unquoted-string -> SYMBOL SYMBOL

TODO

  • Study implicit semi-colons to support unquoted long strings with spaces. It will probably defeat the regular language of the lexer but, you know, we can try.
  • Write a real spec.

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A simple configuration file format for Golang.

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