Package reflections provides high level abstractions above the golang reflect library.
Reflect library is very low-level and can be quite complex when it comes to do simple things like accessing a structure field value, a field tag...
The purpose of reflections package is to make developers life easier when it comes to introspect structures at runtime. Its API is inspired from python language (getattr, setattr, hasattr...) and provides a simplified access to structure fields and tags.
Reflections is an open source library under the MIT license. Any hackers are welcome to supply ideas, features requests, patches, pull requests and so on: see Contribute
Documentation is available at http://godoc.org/github.com/oleiade/reflections
go get gopkg.in/oleiade/reflections.v1
import (
"gopkg.in/oleiade/reflections.v1"
)
GetField returns the content of a structure field. It can be very usefull when you'd wanna iterate over a struct specific fields values for example. You can whether provide GetField a structure or a pointer to structure as first argument.
s := MyStruct {
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
fieldsToExtract := []string{"FirstField", "ThirdField"}
for _, fieldName := range fieldsToExtract {
value, err := reflections.GetField(s, fieldName)
DoWhatEverWithThatValue(value)
}
GetFieldKind returns the reflect.Kind of a structure field. It can be used to operate type assertion over a structure fields at runtime. You can whether provide GetFieldKind a structure or a pointer to structure as first argument.
s := MyStruct{
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
var firstFieldKind reflect.String
var secondFieldKind reflect.Int
var err error
firstFieldKind, err = GetFieldKind(s, "FirstField")
if err != nil {
log.Fatal(err)
}
secondFieldKind, err = GetFieldKind(s, "SecondField")
if err != nil {
log.Fatal(err)
}
GetFieldType returns the string literal of a structure field type. It can be used to operate type assertion over a structure fields at runtime. You can whether provide GetFieldType a structure or a pointer to structure as first argument.
s := MyStruct{
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
var firstFieldKind string
var secondFieldKind string
var err error
firstFieldKind, err = GetFieldType(s, "FirstField")
if err != nil {
log.Fatal(err)
}
secondFieldKind, err = GetFieldType(s, "SecondField")
if err != nil {
log.Fatal(err)
}
GetFieldTag extracts a specific structure field tag. You can whether provide GetFieldTag a structure or a pointer to structure as first argument.
s := MyStruct{}
tag, err := reflections.GetFieldTag(s, "FirstField", "matched")
if err != nil {
log.Fatal(err)
}
fmt.Println(tag)
tag, err = reflections.GetFieldTag(s, "ThirdField", "unmatched")
if err != nil {
log.Fatal(err)
}
fmt.Println(tag)
HasField asserts a field exists through structure. You can whether provide HasField a structure or a pointer to structure as first argument.
s := MyStruct {
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
// has == true
has, _ := reflections.HasField(s, "FirstField")
// has == false
has, _ := reflections.HasField(s, "FourthField")
Fields returns the list of a structure field names, so you can access or modify them later on. You can whether provide Fields a structure or a pointer to structure as first argument.
s := MyStruct {
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
var fields []string
// Fields will list every structure exportable fields.
// Here, it's content would be equal to:
// []string{"FirstField", "SecondField", "ThirdField"}
fields, _ = reflections.Fields(s)
Items returns the structure's field name to values map. You can whether provide Items a structure or a pointer to structure as first argument.
s := MyStruct {
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
var structItems map[string]interface{}
// Items will return a field name to
// field value map
structItems, _ = reflections.Items(s)
Tags returns the structure's fields tag with the provided key. You can whether provide Tags a structure or a pointer to structure as first argument.
s := MyStruct {
FirstField: "first value", `matched:"first tag"`
SecondField: 2, `matched:"second tag"`
ThirdField: "third value", `unmatched:"third tag"`
}
var structTags map[string]string
// Tags will return a field name to tag content
// map. Nota that only field with the tag name
// you've provided which will be matched.
// Here structTags will contain:
// {
// "FirstField": "first tag",
// "SecondField": "second tag",
// }
structTags, _ = reflections.Tags(s, "matched")
SetField update's a structure's field value with the one provided. Note that unexported fields cannot be set, and that field type and value type have to match.
s := MyStruct {
FirstField: "first value",
SecondField: 2,
ThirdField: "third value",
}
// In order to be able to set the structure's values,
// a pointer to it has to be passed to it.
_ := reflections.SetField(&s, "FirstField", "new value")
// If you try to set a field's value using the wrong type,
// an error will be returned
err := reflection.SetField(&s, "FirstField", 123) // err != nil
- unexported fields cannot be accessed or set using reflections library: the golang reflect library intentionaly prohibits unexported fields values access or modifications.
- Check for open issues or open a fresh issue to start a discussion around a feature idea or a bug.
- Fork
the repository
_ on GitHub to start making your changes to the master branch (or branch off of it). - Write tests which shows that the bug was fixed or that the feature works as expected.
- Send a pull request and bug the maintainer until it gets merged and published. :) Make sure to add yourself to AUTHORS_.