{
# specify rate in requests/second (because comments are helpful!)
rate: 1000
// prefer c-style comments?
/* feeling old fashioned? */
# did you notice that rate doesn't need quotes?
hey: look ma, no quotes for strings either!
# best of all
notice: []
anything: ?
# yes, commas are optional!
}
The Go implementation of Hjson is based on hjson-js. For other platforms see hjson.github.io.
More documentation can be found at https://pkg.go.dev/github.com/hjson/hjson-go/v4
Instructions for installing a pre-built hjson-cli tool can be found at https://hjson.github.io/users-bin.html
If you instead want to build locally, make sure you have a working Go environment. See the install instructions.
- In order to use Hjson from your own Go source code, just add an import line like the one here below. Before building your project, run
go mod tidy
in order to download the Hjson source files. The suffix/v4
is required in the import path, unless you specifically want to use an older major version.
import "github.com/hjson/hjson-go/v4"
- If you instead want to use the hjson-cli command line tool, run the command here below in your terminal. The executable will be installed into your
go/bin
folder, make sure that folder is included in yourPATH
environment variable.
go install github.com/hjson/hjson-go/v4/hjson-cli@latest
usage: hjson-cli [OPTIONS] [INPUT]
hjson can be used to convert JSON from/to Hjson.
hjson will read the given JSON/Hjson input file or read from stdin.
Options:
-bracesSameLine
Print braces on the same line.
-c Output as JSON.
-h Show this screen.
-indentBy string
The indent string. (default " ")
-j Output as formatted JSON.
-omitRootBraces
Omit braces at the root.
-preserveKeyOrder
Preserve key order in objects/maps.
-quoteAlways
Always quote string values.
-v
Show version.
Sample:
- run
hjson-cli test.json > test.hjson
to convert to Hjson - run
hjson-cli -j test.hjson > test.json
to convert to JSON
package main
import (
"github.com/hjson/hjson-go/v4"
"fmt"
)
func main() {
// Now let's look at decoding Hjson data into Go
// values.
sampleText := []byte(`
{
# specify rate in requests/second
rate: 1000
array:
[
foo
bar
]
}`)
// We need to provide a variable where Hjson
// can put the decoded data.
var dat map[string]interface{}
// Decode with default options and check for errors.
if err := hjson.Unmarshal(sampleText, &dat); err != nil {
panic(err)
}
// short for:
// options := hjson.DefaultDecoderOptions()
// err := hjson.UnmarshalWithOptions(sampleText, &dat, options)
fmt.Println(dat)
// In order to use the values in the decoded map,
// we'll need to cast them to their appropriate type.
rate := dat["rate"].(float64)
fmt.Println(rate)
array := dat["array"].([]interface{})
str1 := array[0].(string)
fmt.Println(str1)
// To encode to Hjson with default options:
sampleMap := map[string]int{"apple": 5, "lettuce": 7}
hjson, _ := hjson.Marshal(sampleMap)
// short for:
// options := hjson.DefaultOptions()
// hjson, _ := hjson.MarshalWithOptions(sampleMap, options)
fmt.Println(string(hjson))
}
If you prefer, you can also unmarshal to Go structs (including structs implementing the json.Unmarshaler interface or the encoding.TextUnmarshaler interface). The Go JSON package is used for this, so the same rules apply. Specifically for the "json" key in struct field tags. For more details about this type of unmarshalling, see the documentation for json.Unmarshal().
package main
import (
"github.com/hjson/hjson-go/v4"
"fmt"
)
type Sample struct {
Rate int
Array []string
}
type SampleAlias struct {
Rett int `json:"rate"`
Ashtray []string `json:"array"`
}
func main() {
sampleText := []byte(`
{
# specify rate in requests/second
rate: 1000
array:
[
foo
bar
]
}`)
// unmarshal
var sample Sample
hjson.Unmarshal(sampleText, &sample)
fmt.Println(sample.Rate)
fmt.Println(sample.Array)
// unmarshal using json tags on struct fields
var sampleAlias SampleAlias
hjson.Unmarshal(sampleText, &sampleAlias)
fmt.Println(sampleAlias.Rett)
fmt.Println(sampleAlias.Ashtray)
}
By using key comment
in struct field tags you can specify comments to be written on one or more lines preceding the struct field in the Hjson output. Another way to output comments is to use hjson.Node structs, more on than later.
package main
import (
"github.com/hjson/hjson-go/v4"
"fmt"
)
type foo struct {
A string `json:"x" comment:"First comment"`
B int32 `comment:"Second comment\nLook ma, new lines"`
C string
D int32
}
func main() {
a := foo{A: "hi!", B: 3, C: "some text", D: 5}
buf, err := hjson.Marshal(a)
if err != nil {
fmt.Println(err)
}
fmt.Println(string(buf))
}
Output:
{
# First comment
x: hi!
# Second comment
# Look ma, new lines
B: 3
C: some text
D: 5
}
The only way to read comments from Hjson input is to use a destination variable of type hjson.Node or *hjson.Node. The hjson.Node must be the root destination, it won't work if you create a field of type hjson.Node in some other struct and use that struct as destination. An hjson.Node struct is simply a wrapper for a value and comments stored in an hjson.Comments struct. It also has several convenience functions, for example AtIndex() or SetKey() that can be used when you know that the node contains a value of type []interface{}
or *hjson.OrderedMap. All of the elements in []interface{}
or *hjson.OrderedMap will be of type *hjson.Node in trees created by hjson.Unmarshal, but the hjson.Node convenience functions unpack the actual values from them.
When hjson.Node or *hjson.Node is used as destination for Hjson unmarshal the output will be a tree of *hjson.Node where all of the values contained in tree nodes will be of these types:
nil
(no type)float64
(if UseJSONNumber ==false
)- json.Number (if UseJSONNumber ==
true
) string
bool
[]interface{}
- *hjson.OrderedMap
These are just the types used by Hjson unmarshal and the convenience functions, you are free to assign any type of values to nodes in your own code.
The comments will contain all whitespace chars too (including line feeds) so that an Hjson document can be read and written without altering the layout. This can be disabled by setting the decoding option WhitespaceAsComments to false
.
package main
import (
"fmt"
"github.com/hjson/hjson-go/v4"
)
func main() {
// Now let's look at decoding Hjson data into hjson.Node.
sampleText := []byte(`
{
# specify rate in requests/second
rate: 1000
array:
[
foo
bar
]
}`)
var node hjson.Node
if err := hjson.Unmarshal(sampleText, &node); err != nil {
panic(err)
}
node.NK("array").Cm.Before = ` # please specify an array
`
if _, _, err := node.NKC("subMap").SetKey("subVal", 1); err != nil {
panic(err)
}
outBytes, err := hjson.Marshal(node)
if err != nil {
panic(err)
}
fmt.Println(string(outBytes))
}
Output:
{
# specify rate in requests/second
rate: 1000
# please specify an array
array:
[
foo
bar
]
subMap: {
subVal: 1
}
}
Hjson allows quoteless strings. But if a value is a valid number, boolean or null
then it will be unmarshalled into that type instead of a string when unmarshalling into interface{}
. This can lead to unintended consequences if the creator of an Hjson file meant to write a string but didn't think of that the quoteless string they wrote also was a valid number.
The ambiguity can be avoided by using typed destinations when unmarshalling. A string destination will receive a string even if the quoteless string also was a valid number, boolean or null
. Example:
package main
import (
"github.com/hjson/hjson-go/v4"
"fmt"
)
type foo struct {
A string
}
func main() {
var dest foo
err := hjson.Unmarshal([]byte(`a: 3`), &dest)
if err != nil {
fmt.Println(err)
}
fmt.Println(dest)
}
Output:
{3}
String pointer destinations are treated the same as string destinations, so you cannot set a string pointer to nil
by writing null
in an Hjson file. Writing null
in an Hjson file would result in the string "null" being stored in the destination string pointer.
If a destination type implements hjson.ElemTyper, Unmarshal() will call ElemType() on the destination when unmarshalling an array or an object, to see if any array element or leaf node should be of type string even if it can be treated as a number, boolean or null. This is most useful if the destination also implements the json.Unmarshaler interface, because then there is no other way for Unmarshal() to know the type of the elements on the destination. If a destination implements ElemTyper all of its elements must be of the same type.
Example implementation for a generic ordered map:
func (o *OrderedMap[T]) ElemType() reflect.Type {
return reflect.TypeOf((*T)(nil)).Elem()
}