gf/database/gdb/gdb_base.go

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// Copyright 2017 gf Author(https://github.com/gogf/gf). 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 (
"bytes"
"database/sql"
"errors"
"fmt"
"github.com/gogf/gf/container/gmap"
"reflect"
"regexp"
"strings"
"github.com/gogf/gf/text/gstr"
"github.com/gogf/gf/container/gvar"
"github.com/gogf/gf/os/gcache"
"github.com/gogf/gf/os/gtime"
"github.com/gogf/gf/text/gregex"
"github.com/gogf/gf/util/gconv"
)
const (
gDEFAULT_DEBUG_SQL_LENGTH = 1000
gPATH_FILTER_KEY = "/database/gdb/gdb"
)
var (
wordReg = regexp.MustCompile(`^[a-zA-Z0-9\-_]+$`) // Regular expression object for a word.
lastOperatorReg = regexp.MustCompile(`[<>=]+\s*$`) // Regular expression object for a string which has operator at its tail.
)
// 获取最近一条执行的sql
func (bs *dbBase) GetLastSql() *Sql {
if bs.sqls == nil {
return nil
}
if v := bs.sqls.Val(); v != nil {
return v.(*Sql)
}
return nil
}
// 获取已经执行的SQL列表(仅在debug=true时有效)
func (bs *dbBase) GetQueriedSqls() []*Sql {
if bs.sqls == nil {
return nil
}
sqls := make([]*Sql, 0)
bs.sqls.Prev()
bs.sqls.RLockIteratorPrev(func(value interface{}) bool {
if value == nil {
return false
}
sqls = append(sqls, value.(*Sql))
return true
})
return sqls
}
// 打印已经执行的SQL列表(仅在debug=true时有效)
func (bs *dbBase) PrintQueriedSqls() {
sqlSlice := bs.GetQueriedSqls()
for k, v := range sqlSlice {
fmt.Println(len(sqlSlice)-k, ":")
fmt.Println(" Sql :", v.Sql)
fmt.Println(" Args :", v.Args)
fmt.Println(" Error:", v.Error)
fmt.Println(" Start:", gtime.NewFromTimeStamp(v.Start).Format("Y-m-d H:i:s.u"))
fmt.Println(" End :", gtime.NewFromTimeStamp(v.End).Format("Y-m-d H:i:s.u"))
fmt.Println(" Cost :", v.End-v.Start, "ms")
}
}
// 打印SQL对象(仅在debug=true时有效)
func (bs *dbBase) printSql(v *Sql) {
s := fmt.Sprintf("[%d ms] %s", v.End-v.Start, bindArgsToQuery(v.Sql, v.Args))
if v.Error != nil {
s += "\nError: " + v.Error.Error()
bs.logger.StackWithFilter(gPATH_FILTER_KEY).Error(s)
} else {
bs.logger.StackWithFilter(gPATH_FILTER_KEY).Debug(s)
}
}
// 数据库sql查询操作主要执行查询
func (bs *dbBase) Query(query string, args ...interface{}) (rows *sql.Rows, err error) {
link, err := bs.db.Slave()
if err != nil {
return nil, err
}
return bs.db.doQuery(link, query, args...)
}
// 数据库sql查询操作主要执行查询
func (bs *dbBase) doQuery(link dbLink, query string, args ...interface{}) (rows *sql.Rows, err error) {
query, args = formatQuery(query, args)
query = bs.db.handleSqlBeforeExec(query)
if bs.db.getDebug() {
mTime1 := gtime.Millisecond()
rows, err = link.Query(query, args...)
mTime2 := gtime.Millisecond()
s := &Sql{
Sql: query,
Args: args,
Error: err,
Start: mTime1,
End: mTime2,
}
bs.sqls.Put(s)
bs.printSql(s)
} else {
rows, err = link.Query(query, args...)
}
if err == nil {
return rows, nil
} else {
err = formatError(err, query, args...)
}
return nil, err
}
// 执行一条sql并返回执行情况主要用于非查询操作
func (bs *dbBase) Exec(query string, args ...interface{}) (result sql.Result, err error) {
link, err := bs.db.Master()
if err != nil {
return nil, err
}
return bs.db.doExec(link, query, args...)
}
// 执行一条sql并返回执行情况主要用于非查询操作
func (bs *dbBase) doExec(link dbLink, query string, args ...interface{}) (result sql.Result, err error) {
query, args = formatQuery(query, args)
query = bs.db.handleSqlBeforeExec(query)
if bs.db.getDebug() {
mTime1 := gtime.Millisecond()
result, err = link.Exec(query, args...)
mTime2 := gtime.Millisecond()
s := &Sql{
Sql: query,
Args: args,
Error: err,
Start: mTime1,
End: mTime2,
}
bs.sqls.Put(s)
bs.printSql(s)
} else {
result, err = link.Exec(query, args...)
}
return result, formatError(err, query, args...)
}
// SQL预处理执行完成后调用返回值sql.Stmt.Exec完成sql操作; 默认执行在Slave上, 通过第二个参数指定执行在Master上
func (bs *dbBase) Prepare(query string, execOnMaster ...bool) (*sql.Stmt, error) {
err := (error)(nil)
link := (dbLink)(nil)
if len(execOnMaster) > 0 && execOnMaster[0] {
if link, err = bs.db.Master(); err != nil {
return nil, err
}
} else {
if link, err = bs.db.Slave(); err != nil {
return nil, err
}
}
return bs.db.doPrepare(link, query)
}
// SQL预处理执行完成后调用返回值sql.Stmt.Exec完成sql操作
func (bs *dbBase) doPrepare(link dbLink, query string) (*sql.Stmt, error) {
return link.Prepare(query)
}
// 数据库查询,获取查询结果集,以列表结构返回
func (bs *dbBase) GetAll(query string, args ...interface{}) (Result, error) {
return bs.db.doGetAll(nil, query, args...)
}
// 数据库查询,获取查询结果集,以列表结构返回,给定连接对象
func (bs *dbBase) doGetAll(link dbLink, query string, args ...interface{}) (result Result, err error) {
if link == nil {
link, err = bs.db.Slave()
if err != nil {
return nil, err
}
}
rows, err := bs.doQuery(link, query, args...)
if err != nil || rows == nil {
return nil, err
}
defer rows.Close()
return bs.db.rowsToResult(rows)
}
// 数据库查询,获取查询结果记录,以关联数组结构返回
func (bs *dbBase) GetOne(query string, args ...interface{}) (Record, error) {
list, err := bs.GetAll(query, args...)
if err != nil {
return nil, err
}
if len(list) > 0 {
return list[0], nil
}
return nil, nil
}
// 数据库查询查询单条记录自动映射数据到给定的struct对象中
func (bs *dbBase) GetStruct(pointer interface{}, query string, args ...interface{}) error {
one, err := bs.GetOne(query, args...)
if err != nil {
return err
}
return one.Struct(pointer)
}
// 数据库查询查询多条记录并自动转换为指定的slice对象, 如: []struct/[]*struct。
func (bs *dbBase) GetStructs(pointer interface{}, query string, args ...interface{}) error {
all, err := bs.GetAll(query, args...)
if err != nil {
return err
}
return all.Structs(pointer)
}
// 将结果转换为指定的struct/*struct/[]struct/[]*struct,
// 参数应该为指针类型,否则返回失败。
// 该方法自动识别参数类型调用Struct/Structs方法。
func (bs *dbBase) GetScan(pointer interface{}, query string, args ...interface{}) error {
t := reflect.TypeOf(pointer)
k := t.Kind()
if k != reflect.Ptr {
return fmt.Errorf("params should be type of pointer, but got: %v", k)
}
k = t.Elem().Kind()
switch k {
case reflect.Array, reflect.Slice:
return bs.db.GetStructs(pointer, query, args...)
case reflect.Struct:
return bs.db.GetStruct(pointer, query, args...)
}
return fmt.Errorf("element type should be type of struct/slice, unsupported: %v", k)
}
// 数据库查询,获取查询字段值
func (bs *dbBase) GetValue(query string, args ...interface{}) (Value, error) {
one, err := bs.GetOne(query, args...)
if err != nil {
return nil, err
}
for _, v := range one {
return v, nil
}
return nil, nil
}
// 数据库查询,获取查询数量
func (bs *dbBase) GetCount(query string, args ...interface{}) (int, error) {
if !gregex.IsMatchString(`(?i)SELECT\s+COUNT\(.+\)\s+FROM`, query) {
query, _ = gregex.ReplaceString(`(?i)(SELECT)\s+(.+)\s+(FROM)`, `$1 COUNT($2) $3`, query)
}
value, err := bs.GetValue(query, args...)
if err != nil {
return 0, err
}
return value.Int(), nil
}
// ping一下判断或保持数据库链接(master)
func (bs *dbBase) PingMaster() error {
if master, err := bs.db.Master(); err != nil {
return err
} else {
return master.Ping()
}
}
// ping一下判断或保持数据库链接(slave)
func (bs *dbBase) PingSlave() error {
if slave, err := bs.db.Slave(); err != nil {
return err
} else {
return slave.Ping()
}
}
// 事务操作,开启,会返回一个底层的事务操作对象链接如需要嵌套事务,那么可以使用该对象,否则请忽略
// 只有在tx.Commit/tx.Rollback时链接会自动Close
func (bs *dbBase) Begin() (*TX, error) {
if master, err := bs.db.Master(); err != nil {
return nil, err
} else {
if tx, err := master.Begin(); err == nil {
return &TX{
db: bs.db,
tx: tx,
master: master,
}, nil
} else {
return nil, err
}
}
}
// CURD操作:单条数据写入, 仅仅执行写入操作,如果存在冲突的主键或者唯一索引,那么报错返回。
// 参数data支持map/struct/*struct/slice类型
// 当为slice(例如[]map/[]struct/[]*struct)类型时batch参数生效并自动切换为批量操作。
func (bs *dbBase) Insert(table string, data interface{}, batch ...int) (sql.Result, error) {
return bs.db.doInsert(nil, table, data, gINSERT_OPTION_DEFAULT, batch...)
}
// CURD操作:单条数据写入, 如果数据存在(主键或者唯一索引),那么删除后重新写入一条。
// 参数data支持map/struct/*struct/slice类型
// 当为slice(例如[]map/[]struct/[]*struct)类型时batch参数生效并自动切换为批量操作。
func (bs *dbBase) Replace(table string, data interface{}, batch ...int) (sql.Result, error) {
return bs.db.doInsert(nil, table, data, gINSERT_OPTION_REPLACE, batch...)
}
// CURD操作:单条数据写入, 如果数据存在(主键或者唯一索引),那么更新,否则写入一条新数据。
// 参数data支持map/struct/*struct/slice类型
// 当为slice(例如[]map/[]struct/[]*struct)类型时batch参数生效并自动切换为批量操作。
func (bs *dbBase) Save(table string, data interface{}, batch ...int) (sql.Result, error) {
return bs.db.doInsert(nil, table, data, gINSERT_OPTION_SAVE, batch...)
}
// 支持insert、replace, save ignore操作。
// 0: insert: 仅仅执行写入操作,如果存在冲突的主键或者唯一索引,那么报错返回;
// 1: replace: 如果数据存在(主键或者唯一索引),那么删除后重新写入一条;
// 2: save: 如果数据存在(主键或者唯一索引),那么更新,否则写入一条新数据;
// 3: ignore: 如果数据存在(主键或者唯一索引),那么什么也不做;
//
// 参数data支持map/struct/*struct/slice类型
// 当为slice(例如[]map/[]struct/[]*struct)类型时batch参数生效并自动切换为批量操作。
func (bs *dbBase) doInsert(link dbLink, table string, data interface{}, option int, batch ...int) (result sql.Result, err error) {
var fields []string
var values []string
var params []interface{}
var dataMap Map
table = bs.db.quoteWord(table)
// 使用反射判断data数据类型如果为slice类型那么自动转为批量操作
rv := reflect.ValueOf(data)
kind := rv.Kind()
if kind == reflect.Ptr {
rv = rv.Elem()
kind = rv.Kind()
}
switch kind {
case reflect.Slice, reflect.Array:
return bs.db.doBatchInsert(link, table, data, option, batch...)
case reflect.Map, reflect.Struct:
dataMap = structToMap(data)
default:
return result, errors.New(fmt.Sprint("unsupported data type:", kind))
}
if len(dataMap) == 0 {
return nil, errors.New("data cannot be empty")
}
charL, charR := bs.db.getChars()
for k, v := range dataMap {
fields = append(fields, charL+k+charR)
values = append(values, "?")
params = append(params, convertParam(v))
}
operation := getInsertOperationByOption(option)
updateStr := ""
if option == gINSERT_OPTION_SAVE {
for k, _ := range dataMap {
if len(updateStr) > 0 {
updateStr += ","
}
updateStr += fmt.Sprintf("%s%s%s=VALUES(%s%s%s)",
charL, k, charR,
charL, k, charR,
)
}
updateStr = fmt.Sprintf("ON DUPLICATE KEY UPDATE %s", updateStr)
}
if link == nil {
if link, err = bs.db.Master(); err != nil {
return nil, err
}
}
return bs.db.doExec(link, fmt.Sprintf("%s INTO %s(%s) VALUES(%s) %s",
operation, table, strings.Join(fields, ","),
strings.Join(values, ","), updateStr),
params...)
}
// CURD操作:批量数据指定批次量写入
func (bs *dbBase) BatchInsert(table string, list interface{}, batch ...int) (sql.Result, error) {
return bs.db.doBatchInsert(nil, table, list, gINSERT_OPTION_DEFAULT, batch...)
}
// CURD操作:批量数据指定批次量写入, 如果数据存在(主键或者唯一索引),那么删除后重新写入一条
func (bs *dbBase) BatchReplace(table string, list interface{}, batch ...int) (sql.Result, error) {
return bs.db.doBatchInsert(nil, table, list, gINSERT_OPTION_REPLACE, batch...)
}
// CURD操作:批量数据指定批次量写入, 如果数据存在(主键或者唯一索引),那么更新,否则写入一条新数据
func (bs *dbBase) BatchSave(table string, list interface{}, batch ...int) (sql.Result, error) {
return bs.db.doBatchInsert(nil, table, list, gINSERT_OPTION_SAVE, batch...)
}
// 批量写入数据, 参数list支持slice类型例如: []map/[]struct/[]*struct。
func (bs *dbBase) doBatchInsert(link dbLink, table string, list interface{}, option int, batch ...int) (result sql.Result, err error) {
var keys, values []string
var params []interface{}
table = bs.db.quoteWord(table)
listMap := (List)(nil)
switch v := list.(type) {
case Result:
listMap = v.List()
case Record:
listMap = List{v.Map()}
case List:
listMap = v
case Map:
listMap = List{v}
default:
rv := reflect.ValueOf(list)
kind := rv.Kind()
if kind == reflect.Ptr {
rv = rv.Elem()
kind = rv.Kind()
}
switch kind {
// If it's slice type, it then converts it to List type.
case reflect.Slice, reflect.Array:
listMap = make(List, rv.Len())
for i := 0; i < rv.Len(); i++ {
listMap[i] = structToMap(rv.Index(i).Interface())
}
case reflect.Map, reflect.Struct:
listMap = List{structToMap(list)}
default:
return result, errors.New(fmt.Sprint("unsupported list type:", kind))
}
}
if len(listMap) < 1 {
return result, errors.New("data list cannot be empty")
}
if link == nil {
if link, err = bs.db.Master(); err != nil {
return
}
}
// Handle the field names and place holders.
holders := []string(nil)
for k, _ := range listMap[0] {
keys = append(keys, k)
holders = append(holders, "?")
}
// Prepare the result pointer.
batchResult := new(batchSqlResult)
charL, charR := bs.db.getChars()
keysStr := charL + strings.Join(keys, charR+","+charL) + charR
valueHolderStr := "(" + strings.Join(holders, ",") + ")"
operation := getInsertOperationByOption(option)
updateStr := ""
if option == gINSERT_OPTION_SAVE {
for _, k := range keys {
if len(updateStr) > 0 {
updateStr += ","
}
updateStr += fmt.Sprintf("%s%s%s=VALUES(%s%s%s)",
charL, k, charR,
charL, k, charR,
)
}
updateStr = fmt.Sprintf("ON DUPLICATE KEY UPDATE %s", updateStr)
}
// 构造批量写入数据格式(注意map的遍历是无序的)
batchNum := gDEFAULT_BATCH_NUM
if len(batch) > 0 && batch[0] > 0 {
batchNum = batch[0]
}
listMapLen := len(listMap)
for i := 0; i < listMapLen; i++ {
// Note that the map type is unordered,
// so it should use slice+key to retrieve the value.
for _, k := range keys {
params = append(params, convertParam(listMap[i][k]))
}
values = append(values, valueHolderStr)
if len(values) == batchNum || (i == listMapLen-1 && len(values) > 0) {
r, err := bs.db.doExec(
link,
fmt.Sprintf(
"%s INTO %s(%s) VALUES%s %s",
operation,
table,
keysStr,
strings.Join(values, ","),
updateStr,
),
params...,
)
if err != nil {
return r, err
}
if n, err := r.RowsAffected(); err != nil {
return r, err
} else {
batchResult.lastResult = r
batchResult.rowsAffected += n
}
params = params[:0]
values = values[:0]
}
}
return batchResult, nil
}
// CURD操作:数据更新统一采用sql预处理。
// data参数支持string/map/struct/*struct类型。
func (bs *dbBase) Update(table string, data interface{}, condition interface{}, args ...interface{}) (sql.Result, error) {
newWhere, newArgs := bs.db.formatWhere(condition, args)
if newWhere != "" {
newWhere = " WHERE " + newWhere
}
return bs.db.doUpdate(nil, table, data, newWhere, newArgs...)
}
// CURD操作:数据更新统一采用sql预处理。
// data参数支持string/map/struct/*struct类型类型。
func (bs *dbBase) doUpdate(link dbLink, table string, data interface{}, condition string, args ...interface{}) (result sql.Result, err error) {
table = bs.db.quoteWord(table)
updates := ""
// 使用反射进行类型判断
rv := reflect.ValueOf(data)
kind := rv.Kind()
if kind == reflect.Ptr {
rv = rv.Elem()
kind = rv.Kind()
}
params := []interface{}(nil)
switch kind {
case reflect.Map, reflect.Struct:
var fields []string
for k, v := range structToMap(data) {
fields = append(fields, bs.db.quoteWord(k)+"=?")
params = append(params, convertParam(v))
}
updates = strings.Join(fields, ",")
default:
updates = gconv.String(data)
}
if len(updates) == 0 {
return nil, errors.New("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 = bs.db.Master(); err != nil {
return nil, err
}
}
return bs.db.doExec(link, fmt.Sprintf("UPDATE %s SET %s%s", table, updates, condition), args...)
}
// CURD操作:删除数据
func (bs *dbBase) Delete(table string, condition interface{}, args ...interface{}) (result sql.Result, err error) {
newWhere, newArgs := bs.db.formatWhere(condition, args)
if newWhere != "" {
newWhere = " WHERE " + newWhere
}
return bs.db.doDelete(nil, table, newWhere, newArgs...)
}
// CURD操作:删除数据
func (bs *dbBase) doDelete(link dbLink, table string, condition string, args ...interface{}) (result sql.Result, err error) {
if link == nil {
if link, err = bs.db.Master(); err != nil {
return nil, err
}
}
table = bs.db.quoteWord(table)
return bs.db.doExec(link, fmt.Sprintf("DELETE FROM %s%s", table, condition), args...)
}
// 获得缓存对象
func (bs *dbBase) getCache() *gcache.Cache {
return bs.cache
}
// 将数据查询的列表数据*sql.Rows转换为Result类型
func (bs *dbBase) rowsToResult(rows *sql.Rows) (Result, error) {
if !rows.Next() {
return nil, sql.ErrNoRows
}
// 列信息列表, 名称与类型
columnTypes, err := rows.ColumnTypes()
if err != nil {
return nil, err
}
types := make([]string, len(columnTypes))
columns := make([]string, len(columnTypes))
for k, v := range columnTypes {
types[k] = v.DatabaseTypeName()
columns[k] = v.Name()
}
// 返回结构组装
values := make([]sql.RawBytes, len(columns))
scanArgs := make([]interface{}, len(values))
records := make(Result, 0)
for i := range values {
scanArgs[i] = &values[i]
}
for {
if err := rows.Scan(scanArgs...); err != nil {
return records, err
}
row := make(Record)
// 注意col字段是一个[]byte类型(slice类型本身是一个引用类型)
// 多个记录循环时该变量指向的是同一个内存地址
for i, column := range values {
if column == nil {
row[columns[i]] = gvar.New(nil)
} else {
// 由于 sql.RawBytes 是slice类型, 这里必须使用值复制
v := make([]byte, len(column))
copy(v, column)
//fmt.Println(columns[i], types[i], string(v), v, bs.db.convertValue(v, types[i]))
row[columns[i]] = gvar.New(bs.db.convertValue(v, types[i]))
}
}
records = append(records, row)
if !rows.Next() {
break
}
}
return records, nil
}
// 格式化Where查询条件。
func (bs *dbBase) formatWhere(where interface{}, args []interface{}) (newWhere string, newArgs []interface{}) {
buffer := bytes.NewBuffer(nil)
rv := reflect.ValueOf(where)
kind := rv.Kind()
if kind == reflect.Ptr {
rv = rv.Elem()
kind = rv.Kind()
}
switch kind {
case reflect.Map:
for key, value := range structToMap(where) {
newArgs = bs.formatWhereKeyValue(buffer, newArgs, key, value)
}
case reflect.Struct:
// ListMap and TreeMap are ordered map,
// which are index-friendly for where conditions.
switch m := where.(type) {
case *gmap.ListMap:
m.Iterator(func(key, value interface{}) bool {
newArgs = bs.formatWhereKeyValue(buffer, newArgs, gconv.String(key), value)
return true
})
case *gmap.TreeMap:
m.Iterator(func(key, value interface{}) bool {
newArgs = bs.formatWhereKeyValue(buffer, newArgs, gconv.String(key), value)
return true
})
default:
for key, value := range structToMap(where) {
newArgs = bs.formatWhereKeyValue(buffer, newArgs, key, value)
}
}
default:
buffer.WriteString(gconv.String(where))
}
if buffer.Len() == 0 {
return "", args
}
newArgs = append(newArgs, args...)
newWhere = buffer.String()
if len(newArgs) > 0 {
// It supports formats like: Where/And/Or("uid", 1) , Where/And/Or("uid>=", 1)
if gstr.Pos(newWhere, "?") == -1 {
if lastOperatorReg.MatchString(newWhere) {
newWhere += "?"
} else if wordReg.MatchString(newWhere) {
newWhere += "=?"
}
}
}
return handlerSliceArguments(newWhere, newArgs)
}
// formatWhereKeyValue handles each key-value pair of the param map.
func (bs *dbBase) formatWhereKeyValue(buffer *bytes.Buffer, newArgs []interface{}, key string, value interface{}) []interface{} {
key = bs.db.quoteWord(key)
if buffer.Len() > 0 {
buffer.WriteString(" AND ")
}
// 支持slice键值/属性,如果只有一个?占位符号那么作为IN查询否则打散作为多个查询参数
rv := reflect.ValueOf(value)
switch rv.Kind() {
case reflect.Slice, reflect.Array:
count := gstr.Count(key, "?")
if count == 0 {
buffer.WriteString(key + " IN(?)")
newArgs = append(newArgs, value)
} else if count != rv.Len() {
buffer.WriteString(key)
newArgs = append(newArgs, value)
} else {
buffer.WriteString(key)
// 如果键名/属性名称中带有多个?占位符号,那么将参数打散
newArgs = append(newArgs, gconv.Interfaces(value)...)
}
default:
if value == nil {
buffer.WriteString(key)
} else {
// 支持key带操作符号注意like也算是操作符号
key = gstr.Trim(key)
if gstr.Pos(key, "?") == -1 {
like := " like"
if len(key) > len(like) && gstr.Equal(key[len(key)-len(like):], like) {
buffer.WriteString(key + " ?")
} else if lastOperatorReg.MatchString(key) {
buffer.WriteString(key + " ?")
} else {
buffer.WriteString(key + "=?")
}
} else {
buffer.WriteString(key)
}
newArgs = append(newArgs, value)
}
}
return newArgs
}
// 使用关键字操作符转义给定字符串。
// 如果给定的字符串不为单词,那么不转义,直接返回该字符串。
func (bs *dbBase) quoteWord(s string) string {
charLeft, charRight := bs.db.getChars()
if wordReg.MatchString(s) && !gstr.ContainsAny(s, charLeft+charRight) {
return charLeft + s + charRight
}
return s
}
// 动态切换数据库
func (bs *dbBase) setSchema(sqlDb *sql.DB, schema string) error {
_, err := sqlDb.Exec("USE " + schema)
return err
}