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merge.go
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merge.go
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// Copyright (c) 2015-present Mattermost, Inc. All Rights Reserved.
// See LICENSE.txt for license information.
package utils
import (
"fmt"
"reflect"
)
// StructFieldFilter defines a callback function used to decide if a patch value should be applied.
type StructFieldFilter func(structField reflect.StructField, base reflect.Value, patch reflect.Value) bool
// MergeConfig allows for optional merge customizations.
type MergeConfig struct {
StructFieldFilter StructFieldFilter
}
// Merge will return a new value of the same type as base and patch, recursively merging non-nil values from patch on top of base.
//
// Restrictions/guarantees:
// - base and patch must be the same type
// - base and patch will never be modified
// - values from patch are always selected when non-nil
// - structs are merged recursively
// - maps and slices are treated as pointers, and merged as a single value
//
// Note that callers need to cast the returned interface back into the original type:
// func mergeTestStruct(base, patch *testStruct) (*testStruct, error) {
// ret, err := merge(base, patch)
// if err != nil {
// return nil, err
// }
//
// retTS := ret.(testStruct)
// return &retTS, nil
// }
func Merge(base interface{}, patch interface{}, mergeConfig *MergeConfig) (interface{}, error) {
if reflect.TypeOf(base) != reflect.TypeOf(patch) {
return nil, fmt.Errorf(
"cannot merge different types. base type: %s, patch type: %s",
reflect.TypeOf(base),
reflect.TypeOf(patch),
)
}
commonType := reflect.TypeOf(base)
baseVal := reflect.ValueOf(base)
patchVal := reflect.ValueOf(patch)
if commonType.Kind() == reflect.Ptr {
commonType = commonType.Elem()
baseVal = baseVal.Elem()
patchVal = patchVal.Elem()
}
ret := reflect.New(commonType)
val, ok := merge(baseVal, patchVal, mergeConfig)
if ok {
ret.Elem().Set(val)
}
return ret.Elem().Interface(), nil
}
// merge recursively merges patch into base and returns the new struct, ptr, slice/map, or value
func merge(base, patch reflect.Value, mergeConfig *MergeConfig) (reflect.Value, bool) {
commonType := base.Type()
switch commonType.Kind() {
case reflect.Struct:
merged := reflect.New(commonType).Elem()
for i := 0; i < base.NumField(); i++ {
if !merged.Field(i).CanSet() {
continue
}
if mergeConfig != nil && mergeConfig.StructFieldFilter != nil {
if !mergeConfig.StructFieldFilter(commonType.Field(i), base.Field(i), patch.Field(i)) {
merged.Field(i).Set(base.Field(i))
continue
}
}
val, ok := merge(base.Field(i), patch.Field(i), mergeConfig)
if ok {
merged.Field(i).Set(val)
}
}
return merged, true
case reflect.Ptr:
mergedPtr := reflect.New(commonType.Elem())
if base.IsNil() && patch.IsNil() {
return mergedPtr, false
}
// clone reference values (if any)
if base.IsNil() {
val, _ := merge(patch.Elem(), patch.Elem(), mergeConfig)
mergedPtr.Elem().Set(val)
} else if patch.IsNil() {
val, _ := merge(base.Elem(), base.Elem(), mergeConfig)
mergedPtr.Elem().Set(val)
} else {
val, _ := merge(base.Elem(), patch.Elem(), mergeConfig)
mergedPtr.Elem().Set(val)
}
return mergedPtr, true
case reflect.Slice:
if base.IsNil() && patch.IsNil() {
return reflect.Zero(commonType), false
}
if !patch.IsNil() {
// use patch
merged := reflect.MakeSlice(commonType, 0, patch.Len())
for i := 0; i < patch.Len(); i++ {
// recursively merge patch with itself. This will clone reference values.
val, _ := merge(patch.Index(i), patch.Index(i), mergeConfig)
merged = reflect.Append(merged, val)
}
return merged, true
}
// use base
merged := reflect.MakeSlice(commonType, 0, base.Len())
for i := 0; i < base.Len(); i++ {
// recursively merge base with itself. This will clone reference values.
val, _ := merge(base.Index(i), base.Index(i), mergeConfig)
merged = reflect.Append(merged, val)
}
return merged, true
case reflect.Map:
// maps are merged according to these rules:
// - if patch is not nil, replace the base map completely
// - otherwise, keep the base map
// - reference values (eg. slice/ptr/map) will be cloned
if base.IsNil() && patch.IsNil() {
return reflect.Zero(commonType), false
}
merged := reflect.MakeMap(commonType)
mapPtr := base
if !patch.IsNil() {
mapPtr = patch
}
for _, key := range mapPtr.MapKeys() {
// clone reference values
val, ok := merge(mapPtr.MapIndex(key), mapPtr.MapIndex(key), mergeConfig)
if !ok {
val = reflect.New(mapPtr.MapIndex(key).Type()).Elem()
}
merged.SetMapIndex(key, val)
}
return merged, true
case reflect.Interface:
var val reflect.Value
if base.IsNil() && patch.IsNil() {
return reflect.Zero(commonType), false
}
// clone reference values (if any)
if base.IsNil() {
val, _ = merge(patch.Elem(), patch.Elem(), mergeConfig)
} else if patch.IsNil() {
val, _ = merge(base.Elem(), base.Elem(), mergeConfig)
} else {
val, _ = merge(base.Elem(), patch.Elem(), mergeConfig)
}
return val, true
default:
return patch, true
}
}