Important
This library is developed from scratch to replace go-yaml/yaml
.
If you're looking for a better YAML library, this one should be helpful.
As of this writing, there already exists a de facto standard library for YAML processing for Go: https://github.com/go-yaml/yaml. However, we believe that a new YAML library is necessary for the following reasons:
- Not actively maintained
go-yaml/yaml
has ported the libyaml written in C to Go, so the source code is not written in Go style- There is a lot of content that cannot be parsed
- YAML is often used for configuration, and it is common to include validation along with it. However, the errors in
go-yaml/yaml
are not intuitive, and it is difficult to provide meaningful validation errors - When creating tools that use YAML, there are cases where reversible transformation of YAML is required. However, to perform reversible transformations of content that includes Comments or Anchors/Aliases, manipulating the AST is the only option
- Non-intuitive Marshaler / Unmarshaler
By the way, libraries such as ghodss/yaml and sigs.k8s.io/yaml also depend on go-yaml/yaml, so if you are using these libraries, the same issues apply: they cannot parse things that go-yaml/yaml cannot parse, and they inherit many of the problems that go-yaml/yaml has.
- No dependencies
- A better parser than
go-yaml/yaml
.- Support recursive processing
- Higher coverage in the YAML Test Suite
- YAML Test Suite consists of 402 cases in total, of which
gopkg.in/yaml.v3
passes295
. In addition to passing all those test cases,goccy/go-yaml
successfully passes nearly 60 additional test cases ( 2024/12/15 ) - The test code is here
- YAML Test Suite consists of 402 cases in total, of which
- Ease and sustainability of maintenance
- The main maintainer is @goccy, but we are also building a system to develop as a team with trusted developers
- Since it is written from scratch, the code is easy to read for Gophers
- An API structure that allows the use of not only
Encoder
/Decoder
but alsoTokenizer
andParser
functionalities. - Filtering, replacing, and merging YAML content using YAML Path
- Reversible transformation without using the AST for YAML that includes Anchors, Aliases, and Comments
- Customize the Marshal/Unmarshal behavior for primitive types and third-party library types (RegisterCustomMarshaler, RegisterCustomUnmarshaler)
- Respects
encoding/json
behavior- Accept the
json
tag. Note that not all options from thejson
tag will have significance when parsing YAML documents. If both tags exist,yaml
tag will take precedence. - json.Marshaler style marshaler
- json.Unmarshaler style unmarshaler
- Options for using
MarshalJSON
andUnmarshalJSON
(UseJSONMarshaler, UseJSONUnmarshaler)
- Accept the
- Pretty format for error notifications
- Smart validation processing combined with go-playground/validator
- Allow referencing elements declared in another file via anchors
The repositories that use goccy/go-yaml are listed here.
The source data is here. It is already being used in many repositories. Now it's your turn 😄
go get github.com/goccy/go-yaml
Has an interface like go-yaml/yaml
using reflect
var v struct {
A int
B string
}
v.A = 1
v.B = "hello"
bytes, err := yaml.Marshal(v)
if err != nil {
//...
}
fmt.Println(string(bytes)) // "a: 1\nb: hello\n"
yml := `
%YAML 1.2
---
a: 1
b: c
`
var v struct {
A int
B string
}
if err := yaml.Unmarshal([]byte(yml), &v); err != nil {
//...
}
To control marshal/unmarshal behavior, you can use the yaml
tag.
yml := `---
foo: 1
bar: c
`
var v struct {
A int `yaml:"foo"`
B string `yaml:"bar"`
}
if err := yaml.Unmarshal([]byte(yml), &v); err != nil {
//...
}
For convenience, we also accept the json
tag. Note that not all options from
the json
tag will have significance when parsing YAML documents. If both
tags exist, yaml
tag will take precedence.
yml := `---
foo: 1
bar: c
`
var v struct {
A int `json:"foo"`
B string `json:"bar"`
}
if err := yaml.Unmarshal([]byte(yml), &v); err != nil {
//...
}
For custom marshal/unmarshaling, implement either Bytes
or Interface
variant of marshaler/unmarshaler. The difference is that while BytesMarshaler
/BytesUnmarshaler
behaves like encoding/json
and InterfaceMarshaler
/InterfaceUnmarshaler
behaves like gopkg.in/yaml.v2
.
Semantically both are the same, but they differ in performance. Because indentation matters in YAML, you cannot simply accept a valid YAML fragment from a Marshaler, and expect it to work when it is attached to the parent container's serialized form. Therefore when we receive use the BytesMarshaler
, which returns []byte
, we must decode it once to figure out how to make it work in the given context. If you use the InterfaceMarshaler
, we can skip the decoding.
If you are repeatedly marshaling complex objects, the latter is always better performance wise. But if you are, for example, just providing a choice between a config file format that is read only once, the former is probably easier to code.
testdata
directory contains anchor.yml
file:
├── testdata
└── anchor.yml
And anchor.yml
is defined as follows:
a: &a
b: 1
c: hello
Then, if yaml.ReferenceDirs("testdata")
option is passed to yaml.Decoder
,
Decoder
tries to find the anchor definition from YAML files the under testdata
directory.
buf := bytes.NewBufferString("a: *a\n")
dec := yaml.NewDecoder(buf, yaml.ReferenceDirs("testdata"))
var v struct {
A struct {
B int
C string
}
}
if err := dec.Decode(&v); err != nil {
//...
}
fmt.Printf("%+v\n", v) // {A:{B:1 C:hello}}
If you want to use anchor
, you can define it as a struct tag.
If the value specified for an anchor is a pointer type and the same address as the pointer is found, the value is automatically set to alias.
If an explicit alias name is specified, an error is raised if its value is different from the value specified in the anchor.
type T struct {
A int
B string
}
var v struct {
C *T `yaml:"c,anchor=x"`
D *T `yaml:"d,alias=x"`
}
v.C = &T{A: 1, B: "hello"}
v.D = v.C
bytes, err := yaml.Marshal(v)
if err != nil {
panic(err)
}
fmt.Println(string(bytes))
/*
c: &x
a: 1
b: hello
d: *x
*/
If you do not explicitly declare the anchor name, the default behavior is to
use the equivalent of strings.ToLower($FieldName)
as the name of the anchor.
If the value specified for an anchor is a pointer type and the same address as the pointer is found, the value is automatically set to alias.
type T struct {
I int
S string
}
var v struct {
A *T `yaml:"a,anchor"`
B *T `yaml:"b,anchor"`
C *T `yaml:"c"`
D *T `yaml:"d"`
}
v.A = &T{I: 1, S: "hello"}
v.B = &T{I: 2, S: "world"}
v.C = v.A // C has same pointer address to A
v.D = v.B // D has same pointer address to B
bytes, err := yaml.Marshal(v)
if err != nil {
//...
}
fmt.Println(string(bytes))
/*
a: &a
i: 1
s: hello
b: &b
i: 2
s: world
c: *a
d: *b
*/
Merge key and alias ( <<: *alias
) can be used by embedding a structure with the inline,alias
tag.
type Person struct {
*Person `yaml:",omitempty,inline,alias"` // embed Person type for default value
Name string `yaml:",omitempty"`
Age int `yaml:",omitempty"`
}
defaultPerson := &Person{
Name: "John Smith",
Age: 20,
}
people := []*Person{
{
Person: defaultPerson, // assign default value
Name: "Ken", // override Name property
Age: 10, // override Age property
},
{
Person: defaultPerson, // assign default value only
},
}
var doc struct {
Default *Person `yaml:"default,anchor"`
People []*Person `yaml:"people"`
}
doc.Default = defaultPerson
doc.People = people
bytes, err := yaml.Marshal(doc)
if err != nil {
//...
}
fmt.Println(string(bytes))
/*
default: &default
name: John Smith
age: 20
people:
- <<: *default
name: Ken
age: 10
- <<: *default
*/
Error values produced during parsing have two extra features over regular error values.
First, by default, they contain extra information on the location of the error from the source YAML document, to make it easier to find the error location.
Second, the error messages can optionally be colorized.
If you would like to control exactly how the output looks like, consider
using yaml.FormatError
, which accepts two boolean values to
control turning these features on or off.
yml := `
store:
book:
- author: john
price: 10
- author: ken
price: 12
bicycle:
color: red
price: 19.95
`
path, err := yaml.PathString("$.store.book[*].author")
if err != nil {
//...
}
var authors []string
if err := path.Read(strings.NewReader(yml), &authors); err != nil {
//...
}
fmt.Println(authors)
// [john ken]
package main
import (
"fmt"
"github.com/goccy/go-yaml"
)
func main() {
yml := `
a: 1
b: "hello"
`
var v struct {
A int
B string
}
if err := yaml.Unmarshal([]byte(yml), &v); err != nil {
panic(err)
}
if v.A != 2 {
// output error with YAML source
path, err := yaml.PathString("$.a")
if err != nil {
panic(err)
}
source, err := path.AnnotateSource([]byte(yml), true)
if err != nil {
panic(err)
}
fmt.Printf("a value expected 2 but actual %d:\n%s\n", v.A, string(source))
}
}
output result is the following:
print yaml file with color
git clone https://github.com/goccy/go-yaml.git
cd ./cmd/ycat && go insatll .
Note
In this project, we manage such test code under the testdata
directory to avoid adding dependencies on libraries that are only needed for testing to the top go.mod
file. Therefore, if you want to add test cases that use 3rd party libraries, please add the test code to the testdata
directory.
I'm looking for sponsors this library. This library is being developed as a personal project in my spare time. If you want a quick response or problem resolution when using this library in your project, please register as a sponsor. I will cooperate as much as possible. Of course, this library is developed as an MIT license, so you can use it freely for free.
MIT