gorm/callbacks/associations.go

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package callbacks
import (
"reflect"
"strings"
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"gorm.io/gorm"
"gorm.io/gorm/clause"
"gorm.io/gorm/schema"
"gorm.io/gorm/utils"
)
func SaveBeforeAssociations(create bool) func(db *gorm.DB) {
return func(db *gorm.DB) {
if db.Error == nil && db.Statement.Schema != nil {
selectColumns, restricted := db.Statement.SelectAndOmitColumns(create, !create)
// Save Belongs To associations
for _, rel := range db.Statement.Schema.Relationships.BelongsTo {
if v, ok := selectColumns[rel.Name]; (ok && !v) || (!ok && restricted) {
continue
}
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setupReferences := func(obj reflect.Value, elem reflect.Value) {
for _, ref := range rel.References {
if !ref.OwnPrimaryKey {
pv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, elem)
db.AddError(ref.ForeignKey.Set(db.Statement.Context, obj, pv))
if dest, ok := db.Statement.Dest.(map[string]interface{}); ok {
dest[ref.ForeignKey.DBName] = pv
if _, ok := dest[rel.Name]; ok {
dest[rel.Name] = elem.Interface()
}
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}
}
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}
}
switch db.Statement.ReflectValue.Kind() {
case reflect.Slice, reflect.Array:
var (
rValLen = db.Statement.ReflectValue.Len()
objs = make([]reflect.Value, 0, rValLen)
fieldType = rel.Field.FieldType
isPtr = fieldType.Kind() == reflect.Ptr
)
if !isPtr {
fieldType = reflect.PtrTo(fieldType)
}
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elems := reflect.MakeSlice(reflect.SliceOf(fieldType), 0, 10)
for i := 0; i < rValLen; i++ {
obj := db.Statement.ReflectValue.Index(i)
if reflect.Indirect(obj).Kind() != reflect.Struct {
break
}
if _, zero := rel.Field.ValueOf(db.Statement.Context, obj); !zero { // check belongs to relation value
rv := rel.Field.ReflectValueOf(db.Statement.Context, obj) // relation reflect value
objs = append(objs, obj)
if isPtr {
elems = reflect.Append(elems, rv)
} else {
elems = reflect.Append(elems, rv.Addr())
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}
}
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}
if elems.Len() > 0 {
if saveAssociations(db, rel, elems, selectColumns, restricted, nil) == nil {
for i := 0; i < elems.Len(); i++ {
setupReferences(objs[i], elems.Index(i))
}
}
}
case reflect.Struct:
if _, zero := rel.Field.ValueOf(db.Statement.Context, db.Statement.ReflectValue); !zero {
rv := rel.Field.ReflectValueOf(db.Statement.Context, db.Statement.ReflectValue) // relation reflect value
if rv.Kind() != reflect.Ptr {
rv = rv.Addr()
}
if saveAssociations(db, rel, rv, selectColumns, restricted, nil) == nil {
setupReferences(db.Statement.ReflectValue, rv)
}
}
}
}
}
}
}
func SaveAfterAssociations(create bool) func(db *gorm.DB) {
return func(db *gorm.DB) {
if db.Error == nil && db.Statement.Schema != nil {
selectColumns, restricted := db.Statement.SelectAndOmitColumns(create, !create)
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// Save Has One associations
for _, rel := range db.Statement.Schema.Relationships.HasOne {
if v, ok := selectColumns[rel.Name]; (ok && !v) || (!ok && restricted) {
continue
}
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switch db.Statement.ReflectValue.Kind() {
case reflect.Slice, reflect.Array:
var (
fieldType = rel.Field.FieldType
isPtr = fieldType.Kind() == reflect.Ptr
)
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if !isPtr {
fieldType = reflect.PtrTo(fieldType)
}
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elems := reflect.MakeSlice(reflect.SliceOf(fieldType), 0, 10)
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for i := 0; i < db.Statement.ReflectValue.Len(); i++ {
obj := db.Statement.ReflectValue.Index(i)
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if reflect.Indirect(obj).Kind() == reflect.Struct {
if _, zero := rel.Field.ValueOf(db.Statement.Context, obj); !zero {
rv := rel.Field.ReflectValueOf(db.Statement.Context, obj)
if rv.Kind() != reflect.Ptr {
rv = rv.Addr()
}
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for _, ref := range rel.References {
if ref.OwnPrimaryKey {
fv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, obj)
db.AddError(ref.ForeignKey.Set(db.Statement.Context, rv, fv))
} else if ref.PrimaryValue != "" {
db.AddError(ref.ForeignKey.Set(db.Statement.Context, rv, ref.PrimaryValue))
}
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}
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elems = reflect.Append(elems, rv)
}
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}
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}
if elems.Len() > 0 {
assignmentColumns := make([]string, 0, len(rel.References))
for _, ref := range rel.References {
assignmentColumns = append(assignmentColumns, ref.ForeignKey.DBName)
}
saveAssociations(db, rel, elems, selectColumns, restricted, assignmentColumns)
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}
case reflect.Struct:
if _, zero := rel.Field.ValueOf(db.Statement.Context, db.Statement.ReflectValue); !zero {
f := rel.Field.ReflectValueOf(db.Statement.Context, db.Statement.ReflectValue)
if f.Kind() != reflect.Ptr {
f = f.Addr()
}
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assignmentColumns := make([]string, 0, len(rel.References))
for _, ref := range rel.References {
if ref.OwnPrimaryKey {
fv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, db.Statement.ReflectValue)
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, f, fv))
} else if ref.PrimaryValue != "" {
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, f, ref.PrimaryValue))
}
assignmentColumns = append(assignmentColumns, ref.ForeignKey.DBName)
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}
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saveAssociations(db, rel, f, selectColumns, restricted, assignmentColumns)
}
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}
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}
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// Save Has Many associations
for _, rel := range db.Statement.Schema.Relationships.HasMany {
if v, ok := selectColumns[rel.Name]; (ok && !v) || (!ok && restricted) {
continue
}
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fieldType := rel.Field.IndirectFieldType.Elem()
isPtr := fieldType.Kind() == reflect.Ptr
if !isPtr {
fieldType = reflect.PtrTo(fieldType)
}
elems := reflect.MakeSlice(reflect.SliceOf(fieldType), 0, 10)
identityMap := map[string]bool{}
appendToElems := func(v reflect.Value) {
if _, zero := rel.Field.ValueOf(db.Statement.Context, v); !zero {
f := reflect.Indirect(rel.Field.ReflectValueOf(db.Statement.Context, v))
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for i := 0; i < f.Len(); i++ {
elem := f.Index(i)
for _, ref := range rel.References {
if ref.OwnPrimaryKey {
pv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, v)
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, elem, pv))
} else if ref.PrimaryValue != "" {
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, elem, ref.PrimaryValue))
}
}
relPrimaryValues := make([]interface{}, 0, len(rel.FieldSchema.PrimaryFields))
for _, pf := range rel.FieldSchema.PrimaryFields {
if pfv, ok := pf.ValueOf(db.Statement.Context, elem); !ok {
relPrimaryValues = append(relPrimaryValues, pfv)
}
}
cacheKey := utils.ToStringKey(relPrimaryValues...)
if len(relPrimaryValues) != len(rel.FieldSchema.PrimaryFields) || !identityMap[cacheKey] {
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if cacheKey != "" { // has primary fields
identityMap[cacheKey] = true
}
if isPtr {
elems = reflect.Append(elems, elem)
} else {
elems = reflect.Append(elems, elem.Addr())
}
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}
}
}
}
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switch db.Statement.ReflectValue.Kind() {
case reflect.Slice, reflect.Array:
for i := 0; i < db.Statement.ReflectValue.Len(); i++ {
obj := db.Statement.ReflectValue.Index(i)
if reflect.Indirect(obj).Kind() == reflect.Struct {
appendToElems(obj)
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}
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}
case reflect.Struct:
appendToElems(db.Statement.ReflectValue)
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}
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if elems.Len() > 0 {
assignmentColumns := make([]string, 0, len(rel.References))
for _, ref := range rel.References {
assignmentColumns = append(assignmentColumns, ref.ForeignKey.DBName)
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}
saveAssociations(db, rel, elems, selectColumns, restricted, assignmentColumns)
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}
}
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// Save Many2Many associations
for _, rel := range db.Statement.Schema.Relationships.Many2Many {
if v, ok := selectColumns[rel.Name]; (ok && !v) || (!ok && restricted) {
continue
}
fieldType := rel.Field.IndirectFieldType.Elem()
isPtr := fieldType.Kind() == reflect.Ptr
if !isPtr {
fieldType = reflect.PtrTo(fieldType)
}
elems := reflect.MakeSlice(reflect.SliceOf(fieldType), 0, 10)
distinctElems := reflect.MakeSlice(reflect.SliceOf(fieldType), 0, 10)
joins := reflect.MakeSlice(reflect.SliceOf(reflect.PtrTo(rel.JoinTable.ModelType)), 0, 10)
objs := []reflect.Value{}
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appendToJoins := func(obj reflect.Value, elem reflect.Value) {
joinValue := reflect.New(rel.JoinTable.ModelType)
for _, ref := range rel.References {
if ref.OwnPrimaryKey {
fv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, obj)
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, joinValue, fv))
} else if ref.PrimaryValue != "" {
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, joinValue, ref.PrimaryValue))
} else {
fv, _ := ref.PrimaryKey.ValueOf(db.Statement.Context, elem)
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db.AddError(ref.ForeignKey.Set(db.Statement.Context, joinValue, fv))
}
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}
joins = reflect.Append(joins, joinValue)
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}
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identityMap := map[string]bool{}
appendToElems := func(v reflect.Value) {
if _, zero := rel.Field.ValueOf(db.Statement.Context, v); !zero {
f := reflect.Indirect(rel.Field.ReflectValueOf(db.Statement.Context, v))
for i := 0; i < f.Len(); i++ {
elem := f.Index(i)
if !isPtr {
elem = elem.Addr()
}
objs = append(objs, v)
elems = reflect.Append(elems, elem)
relPrimaryValues := make([]interface{}, 0, len(rel.FieldSchema.PrimaryFields))
for _, pf := range rel.FieldSchema.PrimaryFields {
if pfv, ok := pf.ValueOf(db.Statement.Context, elem); !ok {
relPrimaryValues = append(relPrimaryValues, pfv)
}
}
cacheKey := utils.ToStringKey(relPrimaryValues...)
if len(relPrimaryValues) != len(rel.FieldSchema.PrimaryFields) || !identityMap[cacheKey] {
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if cacheKey != "" { // has primary fields
identityMap[cacheKey] = true
}
distinctElems = reflect.Append(distinctElems, elem)
}
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}
}
}
switch db.Statement.ReflectValue.Kind() {
case reflect.Slice, reflect.Array:
for i := 0; i < db.Statement.ReflectValue.Len(); i++ {
obj := db.Statement.ReflectValue.Index(i)
if reflect.Indirect(obj).Kind() == reflect.Struct {
appendToElems(obj)
}
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}
case reflect.Struct:
appendToElems(db.Statement.ReflectValue)
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}
// optimize elems of reflect value length
if elemLen := elems.Len(); elemLen > 0 {
if v, ok := selectColumns[rel.Name+".*"]; !ok || v {
saveAssociations(db, rel, distinctElems, selectColumns, restricted, nil)
}
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for i := 0; i < elemLen; i++ {
appendToJoins(objs[i], elems.Index(i))
}
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}
if joins.Len() > 0 {
db.AddError(db.Session(&gorm.Session{NewDB: true}).Clauses(clause.OnConflict{DoNothing: true}).Session(&gorm.Session{
SkipHooks: db.Statement.SkipHooks,
DisableNestedTransaction: true,
}).Create(joins.Interface()).Error)
}
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}
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}
}
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}
func onConflictOption(stmt *gorm.Statement, s *schema.Schema, defaultUpdatingColumns []string) (onConflict clause.OnConflict) {
if len(defaultUpdatingColumns) > 0 || stmt.DB.FullSaveAssociations {
onConflict.Columns = make([]clause.Column, 0, len(s.PrimaryFieldDBNames))
for _, dbName := range s.PrimaryFieldDBNames {
onConflict.Columns = append(onConflict.Columns, clause.Column{Name: dbName})
}
onConflict.UpdateAll = stmt.DB.FullSaveAssociations
if !onConflict.UpdateAll {
onConflict.DoUpdates = clause.AssignmentColumns(defaultUpdatingColumns)
}
} else {
onConflict.DoNothing = true
}
return
}
func saveAssociations(db *gorm.DB, rel *schema.Relationship, rValues reflect.Value, selectColumns map[string]bool, restricted bool, defaultUpdatingColumns []string) error {
// stop save association loop
if checkAssociationsSaved(db, rValues) {
return nil
}
var (
selects, omits []string
onConflict = onConflictOption(db.Statement, rel.FieldSchema, defaultUpdatingColumns)
refName = rel.Name + "."
values = rValues.Interface()
)
for name, ok := range selectColumns {
columnName := ""
if strings.HasPrefix(name, refName) {
columnName = strings.TrimPrefix(name, refName)
}
if columnName != "" {
if ok {
selects = append(selects, columnName)
} else {
omits = append(omits, columnName)
}
}
}
tx := db.Session(&gorm.Session{NewDB: true}).Clauses(onConflict).Session(&gorm.Session{
FullSaveAssociations: db.FullSaveAssociations,
SkipHooks: db.Statement.SkipHooks,
DisableNestedTransaction: true,
})
db.Statement.Settings.Range(func(k, v interface{}) bool {
tx.Statement.Settings.Store(k, v)
return true
})
if tx.Statement.FullSaveAssociations {
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tx = tx.Set("gorm:update_track_time", true)
}
if len(selects) > 0 {
tx = tx.Select(selects)
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} else if restricted && len(omits) == 0 {
tx = tx.Omit(clause.Associations)
}
if len(omits) > 0 {
tx = tx.Omit(omits...)
}
return db.AddError(tx.Create(values).Error)
}
// check association values has been saved
// if values kind is Struct, check it has been saved
// if values kind is Slice/Array, check all items have been saved
var visitMapStoreKey = "gorm:saved_association_map"
func checkAssociationsSaved(db *gorm.DB, values reflect.Value) bool {
if visit, ok := db.Get(visitMapStoreKey); ok {
if v, ok := visit.(*visitMap); ok {
if loadOrStoreVisitMap(v, values) {
return true
}
}
} else {
vistMap := make(visitMap)
loadOrStoreVisitMap(&vistMap, values)
db.Set(visitMapStoreKey, &vistMap)
}
return false
}