A merge utility designed for flexibility and customizability. The library has a single simple point of entry that works out of the box for most basic use cases. From there, customizations can be made to the way two items are merged to fit your specific needs.
Merge any two things of the same type, including maps, slices, structs, and even basic types like string and int. By default, the target value will be overwritten by the source. If the overwrite option is turned off, only new values in source that do not already exist in target will be added.
If you would like to change the way two items of a particular type get merged, custom merge functions can be defined for any type or kind (see below).
The definition of Conjungo:
I.v. a., to bind together, connect, join, unite (very freq. in all perr. and species of composition); constr. with cum, inter se, the dat., or the acc. only; trop. also with ad.
Reference: Latin Dictionary...
There are other merge libraries written in go, but none of them have the flexibility of this one. If you simply need to merge two things, a default set of merge functions are defined for merging maps, slices, and structs like most other libraries. But, if the way these default functions are defined does not meet your needs, Conjungo provides the ability to define your own merge functions. For instance, the default behavior when merging two integers is to replace the target with the source, but if you'd like to redefine that, you can write a custom merge function that is used when assessing integers. A custom function could add the two integers and return the result, or return the larger of the two integers. You could define a custom merge function for a specific struct type in your code, and define how that gets merged. The customizability of how things get merged is the focus of Conjungo.
The need for this library arose when we were merging large custom structs. We found that there was no single library that merged all the parts of the struct in the way that we needed. We had struct fields that were pointers to sub structs and maps that needed to be followed instead of simply replaced. We had slices that needed to be appended but also deduped. Conjungo solves these types of problems by allowing custom functions to be defined to handle each type.
To get conjungo:
go get github.com/InVisionApp/conjungo
We recommend that you vendor it within your project. We chose to use govendor.
govendor fetch github.com/InVisionApp/conjungo
Merge two structs together:
type Foo struct {
Name string
Size int
Special bool
SubMap map[string]string
}
targetStruct := Foo{
Name: "target",
Size: 2,
Special: false,
SubMap: map[string]string{"foo": "unchanged", "bar": "orig"},
}
sourceStruct := Foo{
Name: "source",
Size: 4,
Special: true,
SubMap: map[string]string{"bar": "newVal", "safe": "added"},
}
err := conjungo.Merge(&targetStruct, sourceStruct, nil)
if err != nil {
log.Error(err)
}
results in:
{
"Name": "source",
"Size": 4,
"Special": true,
"SubMap": {
"bar": "newVal",
"foo": "unchanged",
"safe": "added"
}
}
Overwrite bool
If true, overwrite a target value with source value even if it already exists
ErrorOnUnexported bool
Unexported fields on a struct can not be set. When a struct contains an unexported
field, the default behavior is to treat the entire struct as a single entity and
replace according to Overwrite settings.
If this is enabled, an error will be thrown instead.
opts := conjungo.NewOptions()
opts.MergeFuncs.SetTypeMergeFunc(
reflect.TypeOf(0),
// merge two 'int' types by adding them together
func(t, s reflect.Value, o *conjungo.Options) (reflect.Value, error) {
iT, _ := t.Interface().(int)
iS, _ := s.Interface().(int)
return reflect.ValueOf(iT + iS), nil
},
)
x := 1
y := 2
err := conjungo.Merge(&x, y, opts)
if err != nil {
log.Error(err)
}
// x == 3
opts := conjungo.NewOptions()
opts.MergeFuncs.SetKindMergeFunc(
reflect.TypeOf(struct{}{}).Kind(),
// merge two 'struct' kinds by replacing the target with the source
// provides a mechanism to set override = true for just structs
func(t, s reflect.Value, o *conjungo.Options) (reflect.Value, error) {
return s, nil
},
)
type Foo struct {
Name string
Size int
}
target := Foo{
Name: "bar",
Size: 25,
}
source := Foo{
Name: "baz",
Size: 35,
}
opts := conjungo.NewOptions()
opts.MergeFuncs.SetTypeMergeFunc(
reflect.TypeOf(Foo{}),
// merge two 'int' types by adding them together
func(t, s reflect.Value, o *conjungo.Options) (reflect.Value, error) {
tFoo := t.Interface().(Foo)
sFoo := s.Interface().(Foo)
// names are merged by concatenating them
tFoo.Name = tFoo.Name + "." + sFoo.Name
// sizes are merged by averaging them
tFoo.Size = (tFoo.Size + sFoo.Size) / 2
return reflect.ValueOf(tFoo), nil
},
)
type jsonString string
var targetJSON jsonString = `
{
"a": "wrong",
"b": 1,
"c": {"bar": "orig", "foo": "unchanged"},
}`
var sourceJSON jsonString = `
{
"a": "correct",
"b": 2,
"c": {"bar": "newVal", "safe": "added"},
}`
opts := conjungo.NewOptions()
opts.MergeFuncs.SetTypeMergeFunc(
reflect.TypeOf(jsonString("")),
// merge two json strings by unmarshalling them to maps
func(t, s reflect.Value, o *conjungo.Options) (reflect.Value, error) {
targetStr, _ := t.Interface().(jsonString)
sourceStr, _ := s.Interface().(jsonString)
targetMap := map[string]interface{}{}
if err := json.Unmarshal([]byte(targetStr), &targetMap); err != nil {
return reflect.Value{}, err
}
sourceMap := map[string]interface{}{}
if err := json.Unmarshal([]byte(sourceStr), &sourceMap); err != nil {
return reflect.Value{}, err
}
err := conjungo.Merge(&targetMap, sourceMap, o)
if err != nil {
return reflect.Value{}, err
}
mergedJSON, err := json.Marshal(targetMap)
if err != nil {
return reflect.Value{}, err
}
return reflect.ValueOf(jsonString(mergedJSON)), nil
},
)
See working examples for more details.