gorm/scope_private.go

654 lines
18 KiB
Go

package gorm
import (
"database/sql"
"database/sql/driver"
"errors"
"fmt"
"go/ast"
"reflect"
"regexp"
"strconv"
"strings"
)
func (scope *Scope) primaryCondiation(value interface{}) string {
return fmt.Sprintf("(%v = %v)", scope.Quote(scope.PrimaryKey()), value)
}
func (scope *Scope) buildWhereCondition(clause map[string]interface{}) (str string) {
switch value := clause["query"].(type) {
case string:
// if string is number
if regexp.MustCompile("^\\s*\\d+\\s*$").MatchString(value) {
id, _ := strconv.Atoi(value)
return scope.primaryCondiation(scope.AddToVars(id))
} else {
str = value
}
case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64:
return scope.primaryCondiation(scope.AddToVars(value))
case sql.NullInt64:
return scope.primaryCondiation(scope.AddToVars(value.Int64))
case []int, []int8, []int16, []int32, []int64, []uint, []uint8, []uint16, []uint32, []uint64, []string:
str = fmt.Sprintf("(%v in (?))", scope.Quote(scope.PrimaryKey()))
clause["args"] = []interface{}{value}
case map[string]interface{}:
var sqls []string
for key, value := range value {
sqls = append(sqls, fmt.Sprintf("(%v = %v)", scope.Quote(key), scope.AddToVars(value)))
}
return strings.Join(sqls, " AND ")
case interface{}:
var sqls []string
for _, field := range scope.New(value).Fields() {
if !field.IsBlank {
sqls = append(sqls, fmt.Sprintf("(%v = %v)", scope.Quote(field.DBName), scope.AddToVars(field.Field.Interface())))
}
}
return strings.Join(sqls, " AND ")
}
args := clause["args"].([]interface{})
for _, arg := range args {
switch reflect.TypeOf(arg).Kind() {
case reflect.Slice: // For where("id in (?)", []int64{1,2})
values := reflect.ValueOf(arg)
var tempMarks []string
for i := 0; i < values.Len(); i++ {
tempMarks = append(tempMarks, scope.AddToVars(values.Index(i).Interface()))
}
str = strings.Replace(str, "?", strings.Join(tempMarks, ","), 1)
default:
if valuer, ok := interface{}(arg).(driver.Valuer); ok {
arg, _ = valuer.Value()
}
str = strings.Replace(str, "?", scope.AddToVars(arg), 1)
}
}
return
}
func (scope *Scope) buildNotCondition(clause map[string]interface{}) (str string) {
var notEqualSql string
switch value := clause["query"].(type) {
case string:
if regexp.MustCompile("^\\s*\\d+\\s*$").MatchString(value) {
id, _ := strconv.Atoi(value)
return fmt.Sprintf("(%v <> %v)", scope.Quote(scope.PrimaryKey()), id)
} else if regexp.MustCompile("(?i) (=|<>|>|<|LIKE|IS) ").MatchString(value) {
str = fmt.Sprintf(" NOT (%v) ", value)
notEqualSql = fmt.Sprintf("NOT (%v)", value)
} else {
str = fmt.Sprintf("(%v NOT IN (?))", scope.Quote(value))
notEqualSql = fmt.Sprintf("(%v <> ?)", scope.Quote(value))
}
case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64:
return fmt.Sprintf("(%v <> %v)", scope.Quote(scope.PrimaryKey()), value)
case []int, []int8, []int16, []int32, []int64, []uint, []uint8, []uint16, []uint32, []uint64, []string:
if reflect.ValueOf(value).Len() > 0 {
str = fmt.Sprintf("(%v not in (?))", scope.Quote(scope.PrimaryKey()))
clause["args"] = []interface{}{value}
} else {
return ""
}
case map[string]interface{}:
var sqls []string
for key, value := range value {
sqls = append(sqls, fmt.Sprintf("(%v <> %v)", scope.Quote(key), scope.AddToVars(value)))
}
return strings.Join(sqls, " AND ")
case interface{}:
var sqls []string
for _, field := range scope.New(value).Fields() {
if !field.IsBlank {
sqls = append(sqls, fmt.Sprintf("(%v <> %v)", scope.Quote(field.DBName), scope.AddToVars(field.Field.Interface())))
}
}
return strings.Join(sqls, " AND ")
}
args := clause["args"].([]interface{})
for _, arg := range args {
switch reflect.TypeOf(arg).Kind() {
case reflect.Slice: // For where("id in (?)", []int64{1,2})
values := reflect.ValueOf(arg)
var tempMarks []string
for i := 0; i < values.Len(); i++ {
tempMarks = append(tempMarks, scope.AddToVars(values.Index(i).Interface()))
}
str = strings.Replace(str, "?", strings.Join(tempMarks, ","), 1)
default:
if scanner, ok := interface{}(arg).(driver.Valuer); ok {
arg, _ = scanner.Value()
}
str = strings.Replace(notEqualSql, "?", scope.AddToVars(arg), 1)
}
}
return
}
func (scope *Scope) buildSelectQuery(clause map[string]interface{}) (str string) {
switch value := clause["query"].(type) {
case string:
str = value
case []string:
str = strings.Join(value, ", ")
}
args := clause["args"].([]interface{})
for _, arg := range args {
switch reflect.TypeOf(arg).Kind() {
case reflect.Slice:
values := reflect.ValueOf(arg)
var tempMarks []string
for i := 0; i < values.Len(); i++ {
tempMarks = append(tempMarks, scope.AddToVars(values.Index(i).Interface()))
}
str = strings.Replace(str, "?", strings.Join(tempMarks, ","), 1)
default:
if valuer, ok := interface{}(arg).(driver.Valuer); ok {
arg, _ = valuer.Value()
}
str = strings.Replace(str, "?", scope.Dialect().Quote(fmt.Sprintf("%v", arg)), 1)
}
}
return
}
func (scope *Scope) where(where ...interface{}) {
if len(where) > 0 {
scope.Search = scope.Search.clone().where(where[0], where[1:]...)
}
}
func (scope *Scope) whereSql() (sql string) {
var primaryCondiations, andConditions, orConditions []string
if !scope.Search.Unscope && scope.HasColumn("DeletedAt") {
primaryCondiations = append(primaryCondiations, "(deleted_at IS NULL OR deleted_at <= '0001-01-02')")
}
if !scope.PrimaryKeyZero() {
primaryCondiations = append(primaryCondiations, scope.primaryCondiation(scope.AddToVars(scope.PrimaryKeyValue())))
}
for _, clause := range scope.Search.WhereConditions {
if sql := scope.buildWhereCondition(clause); sql != "" {
andConditions = append(andConditions, sql)
}
}
for _, clause := range scope.Search.OrConditions {
if sql := scope.buildWhereCondition(clause); sql != "" {
orConditions = append(orConditions, sql)
}
}
for _, clause := range scope.Search.NotConditions {
if sql := scope.buildNotCondition(clause); sql != "" {
andConditions = append(andConditions, sql)
}
}
orSql := strings.Join(orConditions, " OR ")
combinedSql := strings.Join(andConditions, " AND ")
if len(combinedSql) > 0 {
if len(orSql) > 0 {
combinedSql = combinedSql + " OR " + orSql
}
} else {
combinedSql = orSql
}
if len(primaryCondiations) > 0 {
sql = "WHERE " + strings.Join(primaryCondiations, " AND ")
if len(combinedSql) > 0 {
sql = sql + " AND (" + combinedSql + ")"
}
} else if len(combinedSql) > 0 {
sql = "WHERE " + combinedSql
}
return
}
func (s *Scope) selectSql() string {
if len(s.Search.Selects) == 0 {
return "*"
}
var selectQueries []string
for _, clause := range s.Search.Selects {
selectQueries = append(selectQueries, s.buildSelectQuery(clause))
}
return strings.Join(selectQueries, ", ")
}
func (s *Scope) orderSql() string {
if len(s.Search.Orders) == 0 {
return ""
} else {
return " ORDER BY " + strings.Join(s.Search.Orders, ",")
}
}
func (s *Scope) limitSql() string {
if !s.Dialect().HasTop() {
if len(s.Search.Limit) == 0 {
return ""
} else {
return " LIMIT " + s.Search.Limit
}
} else {
return ""
}
}
func (s *Scope) topSql() string {
if s.Dialect().HasTop() && len(s.Search.Offset) == 0 {
if len(s.Search.Limit) == 0 {
return ""
} else {
return " TOP(" + s.Search.Limit + ")"
}
} else {
return ""
}
}
func (s *Scope) offsetSql() string {
if len(s.Search.Offset) == 0 {
return ""
} else {
if s.Dialect().HasTop() {
sql := " OFFSET " + s.Search.Offset + " ROW "
if len(s.Search.Limit) > 0 {
sql += "FETCH NEXT " + s.Search.Limit + " ROWS ONLY"
}
return sql
} else {
return " OFFSET " + s.Search.Offset
}
}
}
func (s *Scope) groupSql() string {
if len(s.Search.Group) == 0 {
return ""
} else {
return " GROUP BY " + s.Search.Group
}
}
func (s *Scope) havingSql() string {
if s.Search.HavingCondition == nil {
return ""
} else {
return " HAVING " + s.buildWhereCondition(s.Search.HavingCondition)
}
}
func (s *Scope) joinsSql() string {
return s.Search.Joins + " "
}
func (scope *Scope) prepareQuerySql() {
if scope.Search.Raw {
scope.Raw(strings.TrimLeft(scope.CombinedConditionSql(), "WHERE "))
} else {
scope.Raw(fmt.Sprintf("SELECT %v %v FROM %v %v", scope.topSql(), scope.selectSql(), scope.QuotedTableName(), scope.CombinedConditionSql()))
}
return
}
func (scope *Scope) inlineCondition(values ...interface{}) *Scope {
if len(values) > 0 {
scope.Search = scope.Search.clone().where(values[0], values[1:]...)
}
return scope
}
func (scope *Scope) callCallbacks(funcs []*func(s *Scope)) *Scope {
for _, f := range funcs {
(*f)(scope)
if scope.skipLeft {
break
}
}
return scope
}
func (scope *Scope) updatedAttrsWithValues(values map[string]interface{}, ignoreProtectedAttrs bool) (results map[string]interface{}, hasUpdate bool) {
data := scope.IndirectValue()
if !data.CanAddr() {
return values, true
}
for key, value := range values {
if field, ok := scope.FieldByName(SnakeToUpperCamel(key)); ok && field.Field.IsValid() {
func() {
defer func() {
if err := recover(); err != nil {
hasUpdate = true
field.Set(value)
}
}()
if field.Field.Interface() != value {
switch field.Field.Kind() {
case reflect.Int, reflect.Int32, reflect.Int64:
if s, ok := value.(string); ok {
i, err := strconv.Atoi(s)
if scope.Err(err) == nil {
value = i
}
}
if field.Field.Int() != reflect.ValueOf(value).Int() {
hasUpdate = true
field.Set(value)
}
default:
hasUpdate = true
field.Set(value)
}
}
}()
}
}
return
}
func (scope *Scope) sqlTagForField(field *Field) (typ string) {
if scope.db == nil {
return ""
}
var size = 255
fieldTag := field.Tag.Get(scope.db.parent.tagIdentifier)
var setting = parseTagSetting(fieldTag)
if value, ok := setting["SIZE"]; ok {
if i, err := strconv.Atoi(value); err == nil {
size = i
} else {
size = 0
}
}
if value, ok := setting["TYPE"]; ok {
typ = value
}
additionalType := setting["NOT NULL"] + " " + setting["UNIQUE"]
if value, ok := setting["DEFAULT"]; ok {
additionalType = additionalType + "DEFAULT " + value
}
value := field.Field.Interface()
reflectValue := field.Field
switch reflectValue.Kind() {
case reflect.Slice:
if _, ok := value.([]byte); !ok {
return
}
case reflect.Struct:
if field.IsScanner() {
var getScannerValue func(reflect.Value)
getScannerValue = func(value reflect.Value) {
reflectValue = value
if _, isScanner := reflect.New(reflectValue.Type()).Interface().(sql.Scanner); isScanner {
getScannerValue(reflectValue.Field(0))
}
}
getScannerValue(reflectValue.Field(0))
} else if !field.IsTime() {
return
}
}
if len(typ) == 0 {
if field.IsPrimaryKey {
typ = scope.Dialect().PrimaryKeyTag(reflectValue, size)
} else {
typ = scope.Dialect().SqlTag(reflectValue, size)
}
}
if len(additionalType) > 0 {
typ = typ + " " + additionalType
}
return
}
func (scope *Scope) row() *sql.Row {
defer scope.Trace(NowFunc())
scope.prepareQuerySql()
return scope.DB().QueryRow(scope.Sql, scope.SqlVars...)
}
func (scope *Scope) rows() (*sql.Rows, error) {
defer scope.Trace(NowFunc())
scope.prepareQuerySql()
return scope.DB().Query(scope.Sql, scope.SqlVars...)
}
func (scope *Scope) initialize() *Scope {
for _, clause := range scope.Search.WhereConditions {
scope.updatedAttrsWithValues(convertInterfaceToMap(clause["query"]), false)
}
scope.updatedAttrsWithValues(convertInterfaceToMap(scope.Search.InitAttrs), false)
scope.updatedAttrsWithValues(convertInterfaceToMap(scope.Search.AssignAttrs), false)
return scope
}
func (scope *Scope) pluck(column string, value interface{}) *Scope {
dest := reflect.Indirect(reflect.ValueOf(value))
scope.Search = scope.Search.clone().selects(column)
if dest.Kind() != reflect.Slice {
scope.Err(errors.New("results should be a slice"))
return scope
}
rows, err := scope.rows()
if scope.Err(err) == nil {
defer rows.Close()
for rows.Next() {
elem := reflect.New(dest.Type().Elem()).Interface()
scope.Err(rows.Scan(elem))
dest.Set(reflect.Append(dest, reflect.ValueOf(elem).Elem()))
}
}
return scope
}
func (scope *Scope) count(value interface{}) *Scope {
scope.Search = scope.Search.clone().selects("count(*)")
scope.Err(scope.row().Scan(value))
return scope
}
func (scope *Scope) typeName() string {
value := scope.IndirectValue()
if value.Kind() == reflect.Slice {
return value.Type().Elem().Name()
} else {
return value.Type().Name()
}
}
func (scope *Scope) related(value interface{}, foreignKeys ...string) *Scope {
toScope := scope.db.NewScope(value)
fromScopeType := scope.typeName()
toScopeType := toScope.typeName()
scopeType := ""
for _, foreignKey := range append(foreignKeys, toScope.typeName()+"Id", scope.typeName()+"Id") {
if keys := strings.Split(foreignKey, "."); len(keys) > 1 {
scopeType = keys[0]
foreignKey = keys[1]
}
var relationship *relationship
var field *Field
var scopeHasField bool
if field, scopeHasField = scope.FieldByName(foreignKey); scopeHasField {
relationship = field.Relationship
}
if scopeType == "" || scopeType == fromScopeType {
if scopeHasField {
if relationship != nil && relationship.ForeignKey != "" {
foreignKey = relationship.ForeignKey
}
if relationship != nil && relationship.Kind == "many_to_many" {
if relationship.ForeignType != "" {
scope.Err(fmt.Errorf("gorm does not support polymorphic many-to-many associations"))
}
joinSql := fmt.Sprintf(
"INNER JOIN %v ON %v.%v = %v.%v",
scope.Quote(relationship.JoinTable),
scope.Quote(relationship.JoinTable),
scope.Quote(ToSnake(relationship.AssociationForeignKey)),
toScope.QuotedTableName(),
scope.Quote(toScope.PrimaryKey()))
whereSql := fmt.Sprintf("%v.%v = ?", scope.Quote(relationship.JoinTable), scope.Quote(ToSnake(relationship.ForeignKey)))
toScope.db.Joins(joinSql).Where(whereSql, scope.PrimaryKeyValue()).Find(value)
return scope
}
// has many or has one
if toScope.HasColumn(foreignKey) {
toScope.inlineCondition(fmt.Sprintf("%v = ?", scope.Quote(ToSnake(foreignKey))), scope.PrimaryKeyValue())
if relationship != nil && relationship.ForeignType != "" && toScope.HasColumn(relationship.ForeignType) {
toScope.inlineCondition(fmt.Sprintf("%v = ?", scope.Quote(ToSnake(relationship.ForeignType))), scope.TableName())
}
toScope.callCallbacks(scope.db.parent.callback.queries)
return scope
}
// belongs to
if foreignValue, err := scope.FieldValueByName(foreignKey); err == nil {
sql := fmt.Sprintf("%v = ?", scope.Quote(toScope.PrimaryKey()))
if relationship != nil && relationship.ForeignType != "" && scope.HasColumn(relationship.ForeignType) {
scope.Err(fmt.Errorf("gorm does not support polymorphic belongs_to associations"))
return scope
}
toScope.inlineCondition(sql, foreignValue).callCallbacks(scope.db.parent.callback.queries)
return scope
}
}
}
if scopeType == "" || scopeType == toScopeType {
// has many or has one in foreign scope
if toScope.HasColumn(foreignKey) {
sql := fmt.Sprintf("%v = ?", scope.Quote(ToSnake(foreignKey)))
return toScope.inlineCondition(sql, scope.PrimaryKeyValue()).callCallbacks(scope.db.parent.callback.queries)
}
}
}
scope.Err(fmt.Errorf("invalid association %v", foreignKeys))
return scope
}
func (scope *Scope) createJoinTable(field *Field) {
if field.Relationship != nil && field.Relationship.JoinTable != "" {
if !scope.Dialect().HasTable(scope, field.Relationship.JoinTable) {
newScope := scope.db.NewScope("")
primaryKeySqlType := scope.Dialect().SqlTag(reflect.ValueOf(scope.PrimaryKeyValue()), 255)
newScope.Raw(fmt.Sprintf("CREATE TABLE %v (%v)",
field.Relationship.JoinTable,
strings.Join([]string{
scope.Quote(ToSnake(field.Relationship.ForeignKey)) + " " + primaryKeySqlType,
scope.Quote(ToSnake(field.Relationship.AssociationForeignKey)) + " " + primaryKeySqlType}, ",")),
).Exec()
scope.Err(newScope.db.Error)
}
}
}
func (scope *Scope) createTable() *Scope {
var sqls []string
fields := scope.Fields()
scopeType := scope.IndirectValue().Type()
for i := 0; i < scopeType.NumField(); i++ {
if !ast.IsExported(scopeType.Field(i).Name) {
continue
}
for _, field := range scope.fieldFromStruct(scopeType.Field(i), false) {
field = fields[field.DBName]
if field.IsNormal {
sqlTag := scope.sqlTagForField(field)
sqls = append(sqls, scope.Quote(field.DBName)+" "+sqlTag)
}
scope.createJoinTable(field)
}
}
scope.Raw(fmt.Sprintf("CREATE TABLE %v (%v)", scope.QuotedTableName(), strings.Join(sqls, ","))).Exec()
return scope
}
func (scope *Scope) dropTable() *Scope {
scope.Raw(fmt.Sprintf("DROP TABLE %v", scope.QuotedTableName())).Exec()
return scope
}
func (scope *Scope) dropTableIfExists() *Scope {
scope.Raw(fmt.Sprintf("DROP TABLE IF EXISTS %v", scope.QuotedTableName())).Exec()
return scope
}
func (scope *Scope) modifyColumn(column string, typ string) {
scope.Raw(fmt.Sprintf("ALTER TABLE %v MODIFY %v %v", scope.QuotedTableName(), scope.Quote(column), typ)).Exec()
}
func (scope *Scope) dropColumn(column string) {
scope.Raw(fmt.Sprintf("ALTER TABLE %v DROP COLUMN %v", scope.QuotedTableName(), scope.Quote(column))).Exec()
}
func (scope *Scope) addIndex(unique bool, indexName string, column ...string) {
var columns []string
for _, name := range column {
columns = append(columns, scope.Quote(name))
}
sqlCreate := "CREATE INDEX"
if unique {
sqlCreate = "CREATE UNIQUE INDEX"
}
scope.Raw(fmt.Sprintf("%s %v ON %v(%v);", sqlCreate, indexName, scope.QuotedTableName(), strings.Join(columns, ", "))).Exec()
}
func (scope *Scope) removeIndex(indexName string) {
scope.Dialect().RemoveIndex(scope, indexName)
}
func (scope *Scope) autoMigrate() *Scope {
tableName := scope.TableName()
quotedTableName := scope.QuotedTableName()
if !scope.Dialect().HasTable(scope, tableName) {
scope.createTable()
} else {
for _, field := range scope.Fields() {
if !scope.Dialect().HasColumn(scope, tableName, field.DBName) {
if field.IsNormal {
sqlTag := scope.sqlTagForField(field)
scope.Raw(fmt.Sprintf("ALTER TABLE %v ADD %v %v;", quotedTableName, field.DBName, sqlTag)).Exec()
}
}
scope.createJoinTable(field)
}
}
return scope
}