Since the upstream goccy/go-yaml seems to be not actively maintained anymore, we are going forward with this fork.
If you're adding changes, please list them below for a comprehensive list of differences between the fork and upstream. Provide concise description of the change and why was it introduced.
- #1 Expose syntax and type errors, since they were unexported and there was no direct way to access
ast.Node
details at which the errors occurred. - #2 Root YAML path in the form of
$
query was not handled properly, such query now returns the rootast.Node
. - #3 Some double quoted JSON string literals were not being tokenized correctly, the behaviour was fixed.
- #5 Updated
go.mod
module name togoccy/go-yaml --> nobl9/go-yaml
. This was neccessary to removerepalce
clauses from dependant modules which blockedgo install
from running properly (error: "The go.mod file for the module providing named packages contains one or more replace directives").
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 feel that some features are lacking, namely:
- Pretty format for error notifications
- Direct manipulation of YAML abstract syntax tree
- Support for
Anchor
andAlias
when marshaling - Allow referencing elements declared in another file via anchors
- Pretty format for error notifications
- Supports
Scanner
orLexer
orParser
as public API - Supports
Anchor
andAlias
to Marshaler - Allow referencing elements declared in another file via anchors
- Extract value or AST by YAMLPath ( YAMLPath is like a JSONPath )
go get -u 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
or alias
, you can define it as a struct tag.
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 you do not explicitly declare the alias name AND the value is a pointer to another element, we look up the anchor name by finding out which anchor field the value is assigned to by looking up its pointer address.
type T struct {
I int
S string
}
var v struct {
A *T `yaml:"a,anchor"`
B *T `yaml:"b,anchor"`
C *T `yaml:"c,alias"`
D *T `yaml:"d,alias"`
}
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
go install github.com/goccy/go-yaml/cmd/ycat@latest
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MIT