gf/database/gdb/gdb_core.go
2022-05-10 16:31:56 +08:00

717 lines
23 KiB
Go

// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with this file,
// You can obtain one at https://github.com/gogf/gf.
//
package gdb
import (
"context"
"database/sql"
"fmt"
"reflect"
"strings"
"github.com/gogf/gf/v2/container/gvar"
"github.com/gogf/gf/v2/errors/gcode"
"github.com/gogf/gf/v2/errors/gerror"
"github.com/gogf/gf/v2/internal/intlog"
"github.com/gogf/gf/v2/internal/reflection"
"github.com/gogf/gf/v2/internal/utils"
"github.com/gogf/gf/v2/text/gregex"
"github.com/gogf/gf/v2/text/gstr"
"github.com/gogf/gf/v2/util/gconv"
)
// GetCore returns the underlying *Core object.
func (c *Core) GetCore() *Core {
return c
}
// Ctx is a chaining function, which creates and returns a new DB that is a shallow copy
// of current DB object and with given context in it.
// Note that this returned DB object can be used only once, so do not assign it to
// a global or package variable for long using.
func (c *Core) Ctx(ctx context.Context) DB {
if ctx == nil {
return c.db
}
// It makes a shallow copy of current db and changes its context for next chaining operation.
var (
err error
newCore = &Core{}
configNode = c.db.GetConfig()
)
*newCore = *c
// It creates a new DB object, which is commonly a wrapper for object `Core`.
newCore.db, err = driverMap[configNode.Type].New(newCore, configNode)
if err != nil {
// It is really a serious error here.
// Do not let it continue.
panic(err)
}
newCore.ctx = WithDB(ctx, newCore.db)
newCore.ctx = c.InjectInternalCtxData(newCore.ctx)
return newCore.db
}
// GetCtx returns the context for current DB.
// It returns `context.Background()` is there's no context previously set.
func (c *Core) GetCtx() context.Context {
ctx := c.ctx
if ctx == nil {
ctx = context.TODO()
}
return c.InjectInternalCtxData(ctx)
}
// GetCtxTimeout returns the context and cancel function for specified timeout type.
func (c *Core) GetCtxTimeout(ctx context.Context, timeoutType int) (context.Context, context.CancelFunc) {
if ctx == nil {
ctx = c.db.GetCtx()
} else {
ctx = context.WithValue(ctx, "WrappedByGetCtxTimeout", nil)
}
switch timeoutType {
case ctxTimeoutTypeExec:
if c.db.GetConfig().ExecTimeout > 0 {
return context.WithTimeout(ctx, c.db.GetConfig().ExecTimeout)
}
case ctxTimeoutTypeQuery:
if c.db.GetConfig().QueryTimeout > 0 {
return context.WithTimeout(ctx, c.db.GetConfig().QueryTimeout)
}
case ctxTimeoutTypePrepare:
if c.db.GetConfig().PrepareTimeout > 0 {
return context.WithTimeout(ctx, c.db.GetConfig().PrepareTimeout)
}
default:
panic(gerror.NewCodef(gcode.CodeInvalidParameter, "invalid context timeout type: %d", timeoutType))
}
return ctx, func() {}
}
// Close closes the database and prevents new queries from starting.
// Close then waits for all queries that have started processing on the server
// to finish.
//
// It is rare to Close a DB, as the DB handle is meant to be
// long-lived and shared between many goroutines.
func (c *Core) Close(ctx context.Context) (err error) {
if err = c.cache.Close(ctx); err != nil {
return err
}
c.links.LockFunc(func(m map[string]interface{}) {
for k, v := range m {
if db, ok := v.(*sql.DB); ok {
err = db.Close()
if err != nil {
err = gerror.WrapCode(gcode.CodeDbOperationError, err, `db.Close failed`)
}
intlog.Printf(ctx, `close link: %s, err: %v`, k, err)
if err != nil {
return
}
delete(m, k)
}
}
})
return
}
// Master creates and returns a connection from master node if master-slave configured.
// It returns the default connection if master-slave not configured.
func (c *Core) Master(schema ...string) (*sql.DB, error) {
useSchema := ""
if len(schema) > 0 && schema[0] != "" {
useSchema = schema[0]
} else {
useSchema = c.schema
}
return c.getSqlDb(true, useSchema)
}
// Slave creates and returns a connection from slave node if master-slave configured.
// It returns the default connection if master-slave not configured.
func (c *Core) Slave(schema ...string) (*sql.DB, error) {
useSchema := ""
if len(schema) > 0 && schema[0] != "" {
useSchema = schema[0]
} else {
useSchema = c.schema
}
return c.getSqlDb(false, useSchema)
}
// GetAll queries and returns data records from database.
func (c *Core) GetAll(ctx context.Context, sql string, args ...interface{}) (Result, error) {
return c.db.DoSelect(ctx, nil, sql, args...)
}
// DoSelect queries and returns data records from database.
func (c *Core) DoSelect(ctx context.Context, link Link, sql string, args ...interface{}) (result Result, err error) {
return c.db.DoQuery(ctx, link, sql, args...)
}
// GetOne queries and returns one record from database.
func (c *Core) GetOne(ctx context.Context, sql string, args ...interface{}) (Record, error) {
list, err := c.db.GetAll(ctx, sql, args...)
if err != nil {
return nil, err
}
if len(list) > 0 {
return list[0], nil
}
return nil, nil
}
// GetArray queries and returns data values as slice from database.
// Note that if there are multiple columns in the result, it returns just one column values randomly.
func (c *Core) GetArray(ctx context.Context, sql string, args ...interface{}) ([]Value, error) {
all, err := c.db.DoSelect(ctx, nil, sql, args...)
if err != nil {
return nil, err
}
return all.Array(), nil
}
// GetStruct queries one record from database and converts it to given struct.
// The parameter `pointer` should be a pointer to struct.
func (c *Core) GetStruct(ctx context.Context, pointer interface{}, sql string, args ...interface{}) error {
one, err := c.db.GetOne(ctx, sql, args...)
if err != nil {
return err
}
return one.Struct(pointer)
}
// GetStructs queries records from database and converts them to given struct.
// The parameter `pointer` should be type of struct slice: []struct/[]*struct.
func (c *Core) GetStructs(ctx context.Context, pointer interface{}, sql string, args ...interface{}) error {
all, err := c.db.GetAll(ctx, sql, args...)
if err != nil {
return err
}
return all.Structs(pointer)
}
// GetScan queries one or more records from database and converts them to given struct or
// struct array.
//
// If parameter `pointer` is type of struct pointer, it calls GetStruct internally for
// the conversion. If parameter `pointer` is type of slice, it calls GetStructs internally
// for conversion.
func (c *Core) GetScan(ctx context.Context, pointer interface{}, sql string, args ...interface{}) error {
reflectInfo := reflection.OriginTypeAndKind(pointer)
if reflectInfo.InputKind != reflect.Ptr {
return gerror.NewCodef(
gcode.CodeInvalidParameter,
"params should be type of pointer, but got: %v",
reflectInfo.InputKind,
)
}
switch reflectInfo.OriginKind {
case reflect.Array, reflect.Slice:
return c.db.GetCore().GetStructs(ctx, pointer, sql, args...)
case reflect.Struct:
return c.db.GetCore().GetStruct(ctx, pointer, sql, args...)
}
return gerror.NewCodef(
gcode.CodeInvalidParameter,
`in valid parameter type "%v", of which element type should be type of struct/slice`,
reflectInfo.InputType,
)
}
// GetValue queries and returns the field value from database.
// The sql should query only one field from database, or else it returns only one
// field of the result.
func (c *Core) GetValue(ctx context.Context, sql string, args ...interface{}) (Value, error) {
one, err := c.db.GetOne(ctx, sql, args...)
if err != nil {
return gvar.New(nil), err
}
for _, v := range one {
return v, nil
}
return gvar.New(nil), nil
}
// GetCount queries and returns the count from database.
func (c *Core) GetCount(ctx context.Context, sql string, args ...interface{}) (int, error) {
// If the query fields do not contain function "COUNT",
// it replaces the sql string and adds the "COUNT" function to the fields.
if !gregex.IsMatchString(`(?i)SELECT\s+COUNT\(.+\)\s+FROM`, sql) {
sql, _ = gregex.ReplaceString(`(?i)(SELECT)\s+(.+)\s+(FROM)`, `$1 COUNT($2) $3`, sql)
}
value, err := c.db.GetValue(ctx, sql, args...)
if err != nil {
return 0, err
}
return value.Int(), nil
}
// Union does "(SELECT xxx FROM xxx) UNION (SELECT xxx FROM xxx) ..." statement.
func (c *Core) Union(unions ...*Model) *Model {
var ctx = c.db.GetCtx()
return c.doUnion(ctx, unionTypeNormal, unions...)
}
// UnionAll does "(SELECT xxx FROM xxx) UNION ALL (SELECT xxx FROM xxx) ..." statement.
func (c *Core) UnionAll(unions ...*Model) *Model {
var ctx = c.db.GetCtx()
return c.doUnion(ctx, unionTypeAll, unions...)
}
func (c *Core) doUnion(ctx context.Context, unionType int, unions ...*Model) *Model {
var (
unionTypeStr string
composedSqlStr string
composedArgs = make([]interface{}, 0)
)
if unionType == unionTypeAll {
unionTypeStr = "UNION ALL"
} else {
unionTypeStr = "UNION"
}
for _, v := range unions {
sqlWithHolder, holderArgs := v.getFormattedSqlAndArgs(ctx, queryTypeNormal, false)
if composedSqlStr == "" {
composedSqlStr += fmt.Sprintf(`(%s)`, sqlWithHolder)
} else {
composedSqlStr += fmt.Sprintf(` %s (%s)`, unionTypeStr, sqlWithHolder)
}
composedArgs = append(composedArgs, holderArgs...)
}
return c.db.Raw(composedSqlStr, composedArgs...)
}
// PingMaster pings the master node to check authentication or keeps the connection alive.
func (c *Core) PingMaster() error {
var ctx = c.db.GetCtx()
if master, err := c.db.Master(); err != nil {
return err
} else {
if err = master.PingContext(ctx); err != nil {
err = gerror.WrapCode(gcode.CodeDbOperationError, err, `master.Ping failed`)
}
return err
}
}
// PingSlave pings the slave node to check authentication or keeps the connection alive.
func (c *Core) PingSlave() error {
var ctx = c.db.GetCtx()
if slave, err := c.db.Slave(); err != nil {
return err
} else {
if err = slave.PingContext(ctx); err != nil {
err = gerror.WrapCode(gcode.CodeDbOperationError, err, `slave.Ping failed`)
}
return err
}
}
// Insert does "INSERT INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it returns error.
//
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// The parameter `batch` specifies the batch operation count when given data is slice.
func (c *Core) Insert(ctx context.Context, table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return c.Model(table).Ctx(ctx).Data(data).Batch(batch[0]).Insert()
}
return c.Model(table).Ctx(ctx).Data(data).Insert()
}
// InsertIgnore does "INSERT IGNORE INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it ignores the inserting.
//
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// The parameter `batch` specifies the batch operation count when given data is slice.
func (c *Core) InsertIgnore(ctx context.Context, table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return c.Model(table).Ctx(ctx).Data(data).Batch(batch[0]).InsertIgnore()
}
return c.Model(table).Ctx(ctx).Data(data).InsertIgnore()
}
// InsertAndGetId performs action Insert and returns the last insert id that automatically generated.
func (c *Core) InsertAndGetId(ctx context.Context, table string, data interface{}, batch ...int) (int64, error) {
if len(batch) > 0 {
return c.Model(table).Ctx(ctx).Data(data).Batch(batch[0]).InsertAndGetId()
}
return c.Model(table).Ctx(ctx).Data(data).InsertAndGetId()
}
// Replace does "REPLACE INTO ..." statement for the table.
// If there's already one unique record of the data in the table, it deletes the record
// and inserts a new one.
//
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// If given data is type of slice, it then does batch replacing, and the optional parameter
// `batch` specifies the batch operation count.
func (c *Core) Replace(ctx context.Context, table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return c.Model(table).Ctx(ctx).Data(data).Batch(batch[0]).Replace()
}
return c.Model(table).Ctx(ctx).Data(data).Replace()
}
// Save does "INSERT INTO ... ON DUPLICATE KEY UPDATE..." statement for the table.
// It updates the record if there's primary or unique index in the saving data,
// or else it inserts a new record into the table.
//
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// If given data is type of slice, it then does batch saving, and the optional parameter
// `batch` specifies the batch operation count.
func (c *Core) Save(ctx context.Context, table string, data interface{}, batch ...int) (sql.Result, error) {
if len(batch) > 0 {
return c.Model(table).Ctx(ctx).Data(data).Batch(batch[0]).Save()
}
return c.Model(table).Ctx(ctx).Data(data).Save()
}
// DoInsert inserts or updates data forF given table.
// This function is usually used for custom interface definition, you do not need call it manually.
// The parameter `data` can be type of map/gmap/struct/*struct/[]map/[]struct, etc.
// Eg:
// Data(g.Map{"uid": 10000, "name":"john"})
// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
//
// The parameter `option` values are as follows:
// 0: insert: just insert, if there's unique/primary key in the data, it returns error;
// 1: replace: if there's unique/primary key in the data, it deletes it from table and inserts a new one;
// 2: save: if there's unique/primary key in the data, it updates it or else inserts a new one;
// 3: ignore: if there's unique/primary key in the data, it ignores the inserting;
func (c *Core) DoInsert(ctx context.Context, link Link, table string, list List, option DoInsertOption) (result sql.Result, err error) {
var (
keys []string // Field names.
values []string // Value holder string array, like: (?,?,?)
params []interface{} // Values that will be committed to underlying database driver.
onDuplicateStr string // onDuplicateStr is used in "ON DUPLICATE KEY UPDATE" statement.
)
// Handle the field names and placeholders.
for k := range list[0] {
keys = append(keys, k)
}
// Prepare the batch result pointer.
var (
charL, charR = c.db.GetChars()
batchResult = new(SqlResult)
keysStr = charL + strings.Join(keys, charR+","+charL) + charR
operation = GetInsertOperationByOption(option.InsertOption)
)
if option.InsertOption == InsertOptionSave {
onDuplicateStr = c.formatOnDuplicate(keys, option)
}
var (
listLength = len(list)
valueHolder = make([]string, 0)
)
for i := 0; i < listLength; i++ {
values = values[:0]
// Note that the map type is unordered,
// so it should use slice+key to retrieve the value.
for _, k := range keys {
if s, ok := list[i][k].(Raw); ok {
values = append(values, gconv.String(s))
} else {
values = append(values, "?")
params = append(params, list[i][k])
}
}
valueHolder = append(valueHolder, "("+gstr.Join(values, ",")+")")
// Batch package checks: It meets the batch number, or it is the last element.
if len(valueHolder) == option.BatchCount || (i == listLength-1 && len(valueHolder) > 0) {
var (
stdSqlResult sql.Result
affectedRows int64
)
stdSqlResult, err = c.db.DoExec(ctx, link, fmt.Sprintf(
"%s INTO %s(%s) VALUES%s %s",
operation, c.QuotePrefixTableName(table), keysStr,
gstr.Join(valueHolder, ","),
onDuplicateStr,
), params...)
if err != nil {
return stdSqlResult, err
}
if affectedRows, err = stdSqlResult.RowsAffected(); err != nil {
err = gerror.WrapCode(gcode.CodeDbOperationError, err, `sql.Result.RowsAffected failed`)
return stdSqlResult, err
} else {
batchResult.Result = stdSqlResult
batchResult.Affected += affectedRows
}
params = params[:0]
valueHolder = valueHolder[:0]
}
}
return batchResult, nil
}
func (c *Core) formatOnDuplicate(columns []string, option DoInsertOption) string {
var onDuplicateStr string
if option.OnDuplicateStr != "" {
onDuplicateStr = option.OnDuplicateStr
} else if len(option.OnDuplicateMap) > 0 {
for k, v := range option.OnDuplicateMap {
if len(onDuplicateStr) > 0 {
onDuplicateStr += ","
}
switch v.(type) {
case Raw, *Raw:
onDuplicateStr += fmt.Sprintf(
"%s=%s",
c.QuoteWord(k),
v,
)
default:
onDuplicateStr += fmt.Sprintf(
"%s=VALUES(%s)",
c.QuoteWord(k),
c.QuoteWord(gconv.String(v)),
)
}
}
} else {
for _, column := range columns {
// If it's SAVE operation, do not automatically update the creating time.
if c.isSoftCreatedFieldName(column) {
continue
}
if len(onDuplicateStr) > 0 {
onDuplicateStr += ","
}
onDuplicateStr += fmt.Sprintf(
"%s=VALUES(%s)",
c.QuoteWord(column),
c.QuoteWord(column),
)
}
}
return fmt.Sprintf("ON DUPLICATE KEY UPDATE %s", onDuplicateStr)
}
// Update does "UPDATE ... " statement for the table.
//
// The parameter `data` can be type of string/map/gmap/struct/*struct, etc.
// Eg: "uid=10000", "uid", 10000, g.Map{"uid": 10000, "name":"john"}
//
// The parameter `condition` can be type of string/map/gmap/slice/struct/*struct, etc.
// It is commonly used with parameter `args`.
// Eg:
// "uid=10000",
// "uid", 10000
// "money>? AND name like ?", 99999, "vip_%"
// "status IN (?)", g.Slice{1,2,3}
// "age IN(?,?)", 18, 50
// User{ Id : 1, UserName : "john"}.
func (c *Core) Update(ctx context.Context, table string, data interface{}, condition interface{}, args ...interface{}) (sql.Result, error) {
return c.Model(table).Ctx(ctx).Data(data).Where(condition, args...).Update()
}
// DoUpdate does "UPDATE ... " statement for the table.
// This function is usually used for custom interface definition, you do not need to call it manually.
func (c *Core) DoUpdate(ctx context.Context, link Link, table string, data interface{}, condition string, args ...interface{}) (result sql.Result, err error) {
table = c.QuotePrefixTableName(table)
var (
rv = reflect.ValueOf(data)
kind = rv.Kind()
)
if kind == reflect.Ptr {
rv = rv.Elem()
kind = rv.Kind()
}
var (
params []interface{}
updates = ""
)
switch kind {
case reflect.Map, reflect.Struct:
var (
fields []string
dataMap = c.db.ConvertDataForRecord(ctx, data)
counterHandler = func(column string, counter Counter) {
if counter.Value != 0 {
column = c.QuoteWord(column)
var (
columnRef = c.QuoteWord(counter.Field)
columnVal = counter.Value
operator = "+"
)
if columnVal < 0 {
operator = "-"
columnVal = -columnVal
}
fields = append(fields, fmt.Sprintf("%s=%s%s?", column, columnRef, operator))
params = append(params, columnVal)
}
}
)
for k, v := range dataMap {
switch value := v.(type) {
case *Counter:
counterHandler(k, *value)
case Counter:
counterHandler(k, value)
default:
if s, ok := v.(Raw); ok {
fields = append(fields, c.QuoteWord(k)+"="+gconv.String(s))
} else {
fields = append(fields, c.QuoteWord(k)+"=?")
params = append(params, v)
}
}
}
updates = strings.Join(fields, ",")
default:
updates = gconv.String(data)
}
if len(updates) == 0 {
return nil, gerror.NewCode(gcode.CodeMissingParameter, "data cannot be empty")
}
if len(params) > 0 {
args = append(params, args...)
}
// If no link passed, it then uses the master link.
if link == nil {
if link, err = c.MasterLink(); err != nil {
return nil, err
}
}
return c.db.DoExec(ctx, link, fmt.Sprintf("UPDATE %s SET %s%s", table, updates, condition), args...)
}
// Delete does "DELETE FROM ... " statement for the table.
//
// The parameter `condition` can be type of string/map/gmap/slice/struct/*struct, etc.
// It is commonly used with parameter `args`.
// Eg:
// "uid=10000",
// "uid", 10000
// "money>? AND name like ?", 99999, "vip_%"
// "status IN (?)", g.Slice{1,2,3}
// "age IN(?,?)", 18, 50
// User{ Id : 1, UserName : "john"}.
func (c *Core) Delete(ctx context.Context, table string, condition interface{}, args ...interface{}) (result sql.Result, err error) {
return c.Model(table).Ctx(ctx).Where(condition, args...).Delete()
}
// DoDelete does "DELETE FROM ... " statement for the table.
// This function is usually used for custom interface definition, you do not need call it manually.
func (c *Core) DoDelete(ctx context.Context, link Link, table string, condition string, args ...interface{}) (result sql.Result, err error) {
if link == nil {
if link, err = c.MasterLink(); err != nil {
return nil, err
}
}
table = c.QuotePrefixTableName(table)
return c.db.DoExec(ctx, link, fmt.Sprintf("DELETE FROM %s%s", table, condition), args...)
}
// FilteredLink retrieves and returns filtered `linkInfo` that can be using for
// logging or tracing purpose.
func (c *Core) FilteredLink() string {
return c.config.Link
}
// MarshalJSON implements the interface MarshalJSON for json.Marshal.
// It just returns the pointer address.
//
// Note that this interface implements mainly for workaround for a json infinite loop bug
// of Golang version < v1.14.
func (c Core) MarshalJSON() ([]byte, error) {
return []byte(fmt.Sprintf(`%+v`, c)), nil
}
// writeSqlToLogger outputs the Sql object to logger.
// It is enabled only if configuration "debug" is true.
func (c *Core) writeSqlToLogger(ctx context.Context, sql *Sql) {
var transactionIdStr string
if sql.IsTransaction {
if v := ctx.Value(transactionIdForLoggerCtx); v != nil {
transactionIdStr = fmt.Sprintf(`[txid:%d] `, v.(uint64))
}
}
s := fmt.Sprintf(
"[%3d ms] [%s] [rows:%-3d] %s%s",
sql.End-sql.Start, sql.Group, sql.RowsAffected, transactionIdStr, sql.Format,
)
if sql.Error != nil {
s += "\nError: " + sql.Error.Error()
c.logger.Error(ctx, s)
} else {
c.logger.Debug(ctx, s)
}
}
// HasTable determine whether the table name exists in the database.
func (c *Core) HasTable(name string) (bool, error) {
var (
ctx = c.db.GetCtx()
cacheKey = fmt.Sprintf(`HasTable: %s`, name)
)
result, err := c.GetCache().GetOrSetFuncLock(ctx, cacheKey, func(ctx context.Context) (interface{}, error) {
tableList, err := c.db.Tables(ctx)
if err != nil {
return false, err
}
for _, table := range tableList {
if table == name {
return true, nil
}
}
return false, nil
}, 0,
)
if err != nil {
return false, err
}
return result.Bool(), nil
}
// isSoftCreatedFieldName checks and returns whether given filed name is an automatic-filled created time.
func (c *Core) isSoftCreatedFieldName(fieldName string) bool {
if fieldName == "" {
return false
}
if config := c.db.GetConfig(); config.CreatedAt != "" {
if utils.EqualFoldWithoutChars(fieldName, config.CreatedAt) {
return true
}
return gstr.InArray(append([]string{config.CreatedAt}, createdFiledNames...), fieldName)
}
for _, v := range createdFiledNames {
if utils.EqualFoldWithoutChars(fieldName, v) {
return true
}
}
return false
}