engine.go - Engine is the major struct of xorm, it means a …

/Godeps/_workspace/src/github.com/go-xorm/xorm/engine.go

https://gitlab.com/lust4life/grafana · Go · 1446 lines · 1416 code · 19 blank · 11 comment · 8 complexity · 17208e334f246528cdd5dd9977fc5a32 MD5 · raw file

package xorm

import (
	"bufio"
	"bytes"
	"database/sql"
	"encoding/gob"
	"errors"
	"fmt"
	"io"
	"os"
	"reflect"
	"strconv"
	"strings"
	"sync"
	"time"

	"github.com/go-xorm/core"
)

// Engine is the major struct of xorm, it means a database manager.
// Commonly, an application only need one engine
type Engine struct {
	db      *core.DB
	dialect core.Dialect

	ColumnMapper  core.IMapper
	TableMapper   core.IMapper
	TagIdentifier string
	Tables        map[reflect.Type]*core.Table

	mutex  *sync.RWMutex
	Cacher core.Cacher

	ShowSQL bool

	// !nashtsai! TODO ought to deprecate these but having logger to control its log level
	ShowInfo  bool
	ShowErr   bool
	ShowDebug bool
	ShowWarn  bool
	// --227

	Logger     core.ILogger
	TZLocation *time.Location

	disableGlobalCache bool
}

func (engine *Engine) SetLogger(logger core.ILogger) {
	engine.Logger = logger
	engine.dialect.SetLogger(logger)
}

func (engine *Engine) SetDisableGlobalCache(disable bool) {
	if engine.disableGlobalCache != disable {
		engine.disableGlobalCache = disable
	}
}

func (engine *Engine) DriverName() string {
	return engine.dialect.DriverName()
}

func (engine *Engine) DataSourceName() string {
	return engine.dialect.DataSourceName()
}

func (engine *Engine) SetMapper(mapper core.IMapper) {
	engine.SetTableMapper(mapper)
	engine.SetColumnMapper(mapper)
}

func (engine *Engine) SetTableMapper(mapper core.IMapper) {
	engine.TableMapper = mapper
}

func (engine *Engine) SetColumnMapper(mapper core.IMapper) {
	engine.ColumnMapper = mapper
}

// If engine's database support batch insert records like
// "insert into user values (name, age), (name, age)".
// When the return is ture, then engine.Insert(&users) will
// generate batch sql and exeute.
func (engine *Engine) SupportInsertMany() bool {
	return engine.dialect.SupportInsertMany()
}

// Engine's database use which charactor as quote.
// mysql, sqlite use ` and postgres use "
func (engine *Engine) QuoteStr() string {
	return engine.dialect.QuoteStr()
}

// Use QuoteStr quote the string sql
func (engine *Engine) Quote(sql string) string {
	if len(sql) == 0 {
		return sql
	}
	if string(sql[0]) == engine.dialect.QuoteStr() || sql[0] == '`' {
		return sql
	}
	return engine.dialect.QuoteStr() + sql + engine.dialect.QuoteStr()
}

// A simple wrapper to dialect's core.SqlType method
func (engine *Engine) SqlType(c *core.Column) string {
	return engine.dialect.SqlType(c)
}

// Database's autoincrement statement
func (engine *Engine) AutoIncrStr() string {
	return engine.dialect.AutoIncrStr()
}

// SetMaxOpenConns is only available for go 1.2+
func (engine *Engine) SetMaxOpenConns(conns int) {
	engine.db.SetMaxOpenConns(conns)
}

// @Deprecated
func (engine *Engine) SetMaxConns(conns int) {
	engine.SetMaxOpenConns(conns)
}

// SetMaxIdleConns
func (engine *Engine) SetMaxIdleConns(conns int) {
	engine.db.SetMaxIdleConns(conns)
}

// SetDefaltCacher set the default cacher. Xorm's default not enable cacher.
func (engine *Engine) SetDefaultCacher(cacher core.Cacher) {
	engine.Cacher = cacher
}

// If you has set default cacher, and you want temporilly stop use cache,
// you can use NoCache()
func (engine *Engine) NoCache() *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.NoCache()
}

func (engine *Engine) NoCascade() *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.NoCascade()
}

// Set a table use a special cacher
func (engine *Engine) MapCacher(bean interface{}, cacher core.Cacher) {
	v := rValue(bean)
	tb := engine.autoMapType(v)
	tb.Cacher = cacher
}

// NewDB provides an interface to operate database directly
func (engine *Engine) NewDB() (*core.DB, error) {
	return core.OpenDialect(engine.dialect)
}

func (engine *Engine) DB() *core.DB {
	return engine.db
}

func (engine *Engine) Dialect() core.Dialect {
	return engine.dialect
}

// New a session
func (engine *Engine) NewSession() *Session {
	session := &Session{Engine: engine}
	session.Init()
	return session
}

// Close the engine
func (engine *Engine) Close() error {
	return engine.db.Close()
}

// Ping tests if database is alive
func (engine *Engine) Ping() error {
	session := engine.NewSession()
	defer session.Close()
	engine.LogInfo("PING DATABASE", engine.DriverName)
	return session.Ping()
}

// logging sql
func (engine *Engine) logSQL(sqlStr string, sqlArgs ...interface{}) {
	if engine.ShowSQL {
		engine.overrideLogLevel(core.LOG_INFO)
		if len(sqlArgs) > 0 {
			engine.Logger.Infof("[sql] %v [args] %v", sqlStr, sqlArgs)
		} else {
			engine.Logger.Infof("[sql] %v", sqlStr)
		}
	}
}

func (engine *Engine) LogSQLQueryTime(sqlStr string, args interface{}, executionBlock func() (*core.Stmt, *core.Rows, error)) (*core.Stmt, *core.Rows, error) {
	if engine.ShowDebug {
		b4ExecTime := time.Now()
		stmt, res, err := executionBlock()
		execDuration := time.Since(b4ExecTime)
		engine.LogDebugf("[time] %s - args %v - query took: %vns", sqlStr, args, execDuration.Nanoseconds())
		return stmt, res, err
	} else {
		return executionBlock()
	}
}

func (engine *Engine) LogSQLExecutionTime(sqlStr string, args interface{}, executionBlock func() (sql.Result, error)) (sql.Result, error) {
	if engine.ShowDebug {
		b4ExecTime := time.Now()
		res, err := executionBlock()
		execDuration := time.Since(b4ExecTime)
		engine.LogDebugf("[time] %s - args %v - execution took: %vns", sqlStr, args, execDuration.Nanoseconds())
		return res, err
	} else {
		return executionBlock()
	}
}

// logging error
func (engine *Engine) overrideLogLevel(overrideLevel core.LogLevel) {
	logLevel := engine.Logger.Level()
	if logLevel == core.LOG_UNKNOWN {
		// intend to left empty
	} else if logLevel < overrideLevel { // TODO can remove if deprecated engine.ShowErr
		engine.Logger.SetLevel(core.LOG_ERR) // try override logger's log level
	}

}

func (engine *Engine) LogError(contents ...interface{}) {
	if engine.ShowErr {
		engine.overrideLogLevel(core.LOG_ERR)
		engine.Logger.Err(contents...)
	}
}

func (engine *Engine) LogErrorf(format string, contents ...interface{}) {
	if engine.ShowErr {
		engine.overrideLogLevel(core.LOG_ERR)
		engine.Logger.Errf(format, contents...)
	}
}

// logging info
func (engine *Engine) LogInfo(contents ...interface{}) {
	if engine.ShowInfo {
		engine.overrideLogLevel(core.LOG_INFO)
		engine.Logger.Info(contents...)
	}
}

func (engine *Engine) LogInfof(format string, contents ...interface{}) {
	if engine.ShowErr {
		engine.overrideLogLevel(core.LOG_INFO)
		engine.Logger.Infof(format, contents...)
	}
}

// logging debug
func (engine *Engine) LogDebug(contents ...interface{}) {
	if engine.ShowDebug {
		engine.overrideLogLevel(core.LOG_DEBUG)
		engine.Logger.Debug(contents...)
	}
}

func (engine *Engine) LogDebugf(format string, contents ...interface{}) {
	if engine.ShowDebug {
		engine.overrideLogLevel(core.LOG_DEBUG)
		engine.Logger.Debugf(format, contents...)
	}
}

// logging warn
func (engine *Engine) LogWarn(contents ...interface{}) {
	if engine.ShowWarn {
		engine.overrideLogLevel(core.LOG_WARNING)
		engine.Logger.Warning(contents...)
	}
}

func (engine *Engine) LogWarnf(format string, contents ...interface{}) {
	if engine.ShowWarn {
		engine.overrideLogLevel(core.LOG_WARNING)
		engine.Logger.Warningf(format, contents...)
	}
}

// Sql method let's you manualy write raw sql and operate
// For example:
//
//         engine.Sql("select * from user").Find(&users)
//
// This    code will execute "select * from user" and set the records to users
//
func (engine *Engine) Sql(querystring string, args ...interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Sql(querystring, args...)
}

// Default if your struct has "created" or "updated" filed tag, the fields
// will automatically be filled with current time when Insert or Update
// invoked. Call NoAutoTime if you dont' want to fill automatically.
func (engine *Engine) NoAutoTime() *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.NoAutoTime()
}

// Retrieve all tables, columns, indexes' informations from database.
func (engine *Engine) DBMetas() ([]*core.Table, error) {
	tables, err := engine.dialect.GetTables()
	if err != nil {
		return nil, err
	}

	for _, table := range tables {
		colSeq, cols, err := engine.dialect.GetColumns(table.Name)
		if err != nil {
			return nil, err
		}
		for _, name := range colSeq {
			table.AddColumn(cols[name])
		}
		//table.Columns = cols
		//table.ColumnsSeq = colSeq
		indexes, err := engine.dialect.GetIndexes(table.Name)
		if err != nil {
			return nil, err
		}
		table.Indexes = indexes

		for _, index := range indexes {
			for _, name := range index.Cols {
				if col := table.GetColumn(name); col != nil {
					col.Indexes[index.Name] = true
				} else {
					return nil, fmt.Errorf("Unknown col "+name+" in indexes %v of table", index, table.ColumnsSeq())
				}
			}
		}
	}
	return tables, nil
}

/*
dump database all table structs and data to a file
*/
func (engine *Engine) DumpAllToFile(fp string) error {
	f, err := os.Create(fp)
	if err != nil {
		return err
	}
	defer f.Close()
	return engine.DumpAll(f)
}

/*
dump database all table structs and data to w
*/
func (engine *Engine) DumpAll(w io.Writer) error {
	tables, err := engine.DBMetas()
	if err != nil {
		return err
	}

	for _, table := range tables {
		_, err = io.WriteString(w, engine.dialect.CreateTableSql(table, "", table.StoreEngine, "")+"\n\n")
		if err != nil {
			return err
		}
		for _, index := range table.Indexes {
			_, err = io.WriteString(w, engine.dialect.CreateIndexSql(table.Name, index)+"\n\n")
			if err != nil {
				return err
			}
		}

		rows, err := engine.DB().Query("SELECT * FROM " + engine.Quote(table.Name))
		if err != nil {
			return err
		}

		cols, err := rows.Columns()
		if err != nil {
			return err
		}
		if len(cols) == 0 {
			continue
		}
		for rows.Next() {
			dest := make([]interface{}, len(cols))
			err = rows.ScanSlice(&dest)
			if err != nil {
				return err
			}

			_, err = io.WriteString(w, "INSERT INTO "+engine.Quote(table.Name)+" ("+engine.Quote(strings.Join(cols, engine.Quote(", ")))+") VALUES (")
			if err != nil {
				return err
			}

			var temp string
			for i, d := range dest {
				col := table.GetColumn(cols[i])
				if d == nil {
					temp += ", NULL"
				} else if col.SQLType.IsText() || col.SQLType.IsTime() {
					var v = fmt.Sprintf("%s", d)
					temp += ", '" + strings.Replace(v, "'", "''", -1) + "'"
				} else if col.SQLType.IsBlob() {
					if reflect.TypeOf(d).Kind() == reflect.Slice {
						temp += fmt.Sprintf(", %s", engine.dialect.FormatBytes(d.([]byte)))
					} else if reflect.TypeOf(d).Kind() == reflect.String {
						temp += fmt.Sprintf(", '%s'", d.(string))
					}
				} else if col.SQLType.IsNumeric() {
					switch reflect.TypeOf(d).Kind() {
					case reflect.Slice:
						temp += fmt.Sprintf(", %s", string(d.([]byte)))
					default:
						temp += fmt.Sprintf(", %v", d)
					}
				} else {
					s := fmt.Sprintf("%v", d)
					if strings.Contains(s, ":") || strings.Contains(s, "-") {
						temp += fmt.Sprintf(", '%s'", s)
					} else {
						temp += fmt.Sprintf(", %s", s)
					}
				}
			}
			_, err = io.WriteString(w, temp[2:]+");\n\n")
			if err != nil {
				return err
			}
		}
	}
	return nil
}

// use cascade or not
func (engine *Engine) Cascade(trueOrFalse ...bool) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Cascade(trueOrFalse...)
}

// Where method provide a condition query
func (engine *Engine) Where(querystring string, args ...interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Where(querystring, args...)
}

// Id mehtod provoide a condition as (id) = ?
func (engine *Engine) Id(id interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Id(id)
}

// Apply before Processor, affected bean is passed to closure arg
func (engine *Engine) Before(closures func(interface{})) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Before(closures)
}

// Apply after insert Processor, affected bean is passed to closure arg
func (engine *Engine) After(closures func(interface{})) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.After(closures)
}

// set charset when create table, only support mysql now
func (engine *Engine) Charset(charset string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Charset(charset)
}

// set store engine when create table, only support mysql now
func (engine *Engine) StoreEngine(storeEngine string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.StoreEngine(storeEngine)
}

// use for distinct columns. Caution: when you are using cache,
// distinct will not be cached because cache system need id,
// but distinct will not provide id
func (engine *Engine) Distinct(columns ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Distinct(columns...)
}

// only use the paramters as select or update columns
func (engine *Engine) Cols(columns ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Cols(columns...)
}

func (engine *Engine) AllCols() *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.AllCols()
}

func (engine *Engine) MustCols(columns ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.MustCols(columns...)
}

// Xorm automatically retrieve condition according struct, but
// if struct has bool field, it will ignore them. So use UseBool
// to tell system to do not ignore them.
// If no paramters, it will use all the bool field of struct, or
// it will use paramters's columns
func (engine *Engine) UseBool(columns ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.UseBool(columns...)
}

// Only not use the paramters as select or update columns
func (engine *Engine) Omit(columns ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Omit(columns...)
}

// This method will generate "column IN (?, ?)"
func (engine *Engine) In(column string, args ...interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.In(column, args...)
}

// Method Inc provides a update string like "column = column + ?"
func (engine *Engine) Incr(column string, arg ...interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Incr(column, arg...)
}

// Method Decr provides a update string like "column = column - ?"
func (engine *Engine) Decr(column string, arg ...interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Decr(column, arg...)
}

// Method SetExpr provides a update string like "column = {expression}"
func (engine *Engine) SetExpr(column string, expression string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.SetExpr(column, expression)
}

// Temporarily change the Get, Find, Update's table
func (engine *Engine) Table(tableNameOrBean interface{}) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Table(tableNameOrBean)
}

// set the table alias
func (engine *Engine) Alias(alias string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Alias(alias)
}

// This method will generate "LIMIT start, limit"
func (engine *Engine) Limit(limit int, start ...int) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Limit(limit, start...)
}

// Method Desc will generate "ORDER BY column1 DESC, column2 DESC"
// This will
func (engine *Engine) Desc(colNames ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Desc(colNames...)
}

// Method Asc will generate "ORDER BY column1,column2 Asc"
// This method can chainable use.
//
//        engine.Desc("name").Asc("age").Find(&users)
//        // SELECT * FROM user ORDER BY name DESC, age ASC
//
func (engine *Engine) Asc(colNames ...string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Asc(colNames...)
}

// Method OrderBy will generate "ORDER BY order"
func (engine *Engine) OrderBy(order string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.OrderBy(order)
}

// The join_operator should be one of INNER, LEFT OUTER, CROSS etc - this will be prepended to JOIN
func (engine *Engine) Join(join_operator string, tablename interface{}, condition string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Join(join_operator, tablename, condition)
}

// Generate Group By statement
func (engine *Engine) GroupBy(keys string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.GroupBy(keys)
}

// Generate Having statement
func (engine *Engine) Having(conditions string) *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Having(conditions)
}

func (engine *Engine) autoMapType(v reflect.Value) *core.Table {
	t := v.Type()
	engine.mutex.RLock()
	table, ok := engine.Tables[t]
	engine.mutex.RUnlock()
	if !ok {
		table = engine.mapType(v)
		engine.mutex.Lock()
		engine.Tables[t] = table
		if v.CanAddr() {
			engine.GobRegister(v.Addr().Interface())
		} else {
			engine.GobRegister(v.Interface())
		}
		engine.mutex.Unlock()
	}
	return table
}

func (engine *Engine) GobRegister(v interface{}) *Engine {
	//fmt.Printf("Type: %[1]T => Data: %[1]#v\n", v)
	gob.Register(v)
	return engine
}

func (engine *Engine) TableInfo(bean interface{}) *core.Table {
	v := rValue(bean)
	return engine.autoMapType(v)
}

func addIndex(indexName string, table *core.Table, col *core.Column, indexType int) {
	if index, ok := table.Indexes[indexName]; ok {
		index.AddColumn(col.Name)
		col.Indexes[index.Name] = true
	} else {
		index := core.NewIndex(indexName, indexType)
		index.AddColumn(col.Name)
		table.AddIndex(index)
		col.Indexes[index.Name] = true
	}
}

func (engine *Engine) newTable() *core.Table {
	table := core.NewEmptyTable()

	if !engine.disableGlobalCache {
		table.Cacher = engine.Cacher
	}
	return table
}

func (engine *Engine) mapType(v reflect.Value) *core.Table {
	t := v.Type()
	table := engine.newTable()
	method := v.MethodByName("TableName")
	if !method.IsValid() {
		if v.CanAddr() {
			method = v.Addr().MethodByName("TableName")
		}
	}
	if method.IsValid() {
		params := []reflect.Value{}
		results := method.Call(params)
		if len(results) == 1 {
			table.Name = results[0].Interface().(string)
		}
	}

	if table.Name == "" {
		table.Name = engine.TableMapper.Obj2Table(t.Name())
	}
	table.Type = t

	var idFieldColName string
	var err error

	hasCacheTag := false
	hasNoCacheTag := false

	for i := 0; i < t.NumField(); i++ {
		tag := t.Field(i).Tag

		ormTagStr := tag.Get(engine.TagIdentifier)
		var col *core.Column
		fieldValue := v.Field(i)
		fieldType := fieldValue.Type()

		if ormTagStr != "" {
			col = &core.Column{FieldName: t.Field(i).Name, Nullable: true, IsPrimaryKey: false,
				IsAutoIncrement: false, MapType: core.TWOSIDES, Indexes: make(map[string]bool)}
			tags := strings.Split(ormTagStr, " ")

			if len(tags) > 0 {
				if tags[0] == "-" {
					continue
				}
				if strings.ToUpper(tags[0]) == "EXTENDS" {
					if fieldValue.Kind() == reflect.Struct {
						parentTable := engine.mapType(fieldValue)
						for _, col := range parentTable.Columns() {
							col.FieldName = fmt.Sprintf("%v.%v", t.Field(i).Name, col.FieldName)
							table.AddColumn(col)
						}

						continue
					} else if fieldValue.Kind() == reflect.Ptr {
						f := fieldValue.Type().Elem()
						if f.Kind() == reflect.Struct {
							fieldValue = fieldValue.Elem()
							if !fieldValue.IsValid() || fieldValue.IsNil() {
								fieldValue = reflect.New(f).Elem()
							}
						}

						parentTable := engine.mapType(fieldValue)
						for _, col := range parentTable.Columns() {
							col.FieldName = fmt.Sprintf("%v.%v", t.Field(i).Name, col.FieldName)
							table.AddColumn(col)
						}

						continue
					}
					//TODO: warning
				}

				indexNames := make(map[string]int)
				var isIndex, isUnique bool
				var preKey string
				for j, key := range tags {
					k := strings.ToUpper(key)
					switch {
					case k == "<-":
						col.MapType = core.ONLYFROMDB
					case k == "->":
						col.MapType = core.ONLYTODB
					case k == "PK":
						col.IsPrimaryKey = true
						col.Nullable = false
					case k == "NULL":
						if j == 0 {
							col.Nullable = true
						} else {
							col.Nullable = (strings.ToUpper(tags[j-1]) != "NOT")
						}
					// TODO: for postgres how add autoincr?
					/*case strings.HasPrefix(k, "AUTOINCR(") && strings.HasSuffix(k, ")"):
					col.IsAutoIncrement = true

					autoStart := k[len("AUTOINCR")+1 : len(k)-1]
					autoStartInt, err := strconv.Atoi(autoStart)
					if err != nil {
						engine.LogError(err)
					}
					col.AutoIncrStart = autoStartInt*/
					case k == "AUTOINCR":
						col.IsAutoIncrement = true
						//col.AutoIncrStart = 1
					case k == "DEFAULT":
						col.Default = tags[j+1]
					case k == "CREATED":
						col.IsCreated = true
					case k == "VERSION":
						col.IsVersion = true
						col.Default = "1"
					case k == "UPDATED":
						col.IsUpdated = true
					case k == "DELETED":
						col.IsDeleted = true
					case strings.HasPrefix(k, "INDEX(") && strings.HasSuffix(k, ")"):
						indexName := k[len("INDEX")+1 : len(k)-1]
						indexNames[indexName] = core.IndexType
					case k == "INDEX":
						isIndex = true
					case strings.HasPrefix(k, "UNIQUE(") && strings.HasSuffix(k, ")"):
						indexName := k[len("UNIQUE")+1 : len(k)-1]
						indexNames[indexName] = core.UniqueType
					case k == "UNIQUE":
						isUnique = true
					case k == "NOTNULL":
						col.Nullable = false
					case k == "CACHE":
						if !hasCacheTag {
							hasCacheTag = true
						}
					case k == "NOCACHE":
						if !hasNoCacheTag {
							hasNoCacheTag = true
						}
					case k == "NOT":
					default:
						if strings.HasPrefix(k, "'") && strings.HasSuffix(k, "'") {
							if preKey != "DEFAULT" {
								col.Name = key[1 : len(key)-1]
							}
						} else if strings.Contains(k, "(") && strings.HasSuffix(k, ")") {
							fs := strings.Split(k, "(")

							if _, ok := core.SqlTypes[fs[0]]; !ok {
								preKey = k
								continue
							}
							col.SQLType = core.SQLType{fs[0], 0, 0}
							if fs[0] == core.Enum && fs[1][0] == '\'' { //enum
								options := strings.Split(fs[1][0:len(fs[1])-1], ",")
								col.EnumOptions = make(map[string]int)
								for k, v := range options {
									v = strings.TrimSpace(v)
									v = strings.Trim(v, "'")
									col.EnumOptions[v] = k
								}
							} else if fs[0] == core.Set && fs[1][0] == '\'' { //set
								options := strings.Split(fs[1][0:len(fs[1])-1], ",")
								col.SetOptions = make(map[string]int)
								for k, v := range options {
									v = strings.TrimSpace(v)
									v = strings.Trim(v, "'")
									col.SetOptions[v] = k
								}
							} else {
								fs2 := strings.Split(fs[1][0:len(fs[1])-1], ",")
								if len(fs2) == 2 {
									col.Length, err = strconv.Atoi(fs2[0])
									if err != nil {
										engine.LogError(err)
									}
									col.Length2, err = strconv.Atoi(fs2[1])
									if err != nil {
										engine.LogError(err)
									}
								} else if len(fs2) == 1 {
									col.Length, err = strconv.Atoi(fs2[0])
									if err != nil {
										engine.LogError(err)
									}
								}
							}
						} else {
							if _, ok := core.SqlTypes[k]; ok {
								col.SQLType = core.SQLType{k, 0, 0}
							} else if key != col.Default {
								col.Name = key
							}
						}
						engine.dialect.SqlType(col)
					}
					preKey = k
				}
				if col.SQLType.Name == "" {
					col.SQLType = core.Type2SQLType(fieldType)
				}
				if col.Length == 0 {
					col.Length = col.SQLType.DefaultLength
				}
				if col.Length2 == 0 {
					col.Length2 = col.SQLType.DefaultLength2
				}

				if col.Name == "" {
					col.Name = engine.ColumnMapper.Obj2Table(t.Field(i).Name)
				}

				if isUnique {
					indexNames[col.Name] = core.UniqueType
				} else if isIndex {
					indexNames[col.Name] = core.IndexType
				}

				for indexName, indexType := range indexNames {
					addIndex(indexName, table, col, indexType)
				}
			}
		} else {
			var sqlType core.SQLType
			if fieldValue.CanAddr() {
				if _, ok := fieldValue.Addr().Interface().(core.Conversion); ok {
					sqlType = core.SQLType{core.Text, 0, 0}
				}
			}
			if _, ok := fieldValue.Interface().(core.Conversion); ok {
				sqlType = core.SQLType{core.Text, 0, 0}
			} else {
				sqlType = core.Type2SQLType(fieldType)
			}
			col = core.NewColumn(engine.ColumnMapper.Obj2Table(t.Field(i).Name),
				t.Field(i).Name, sqlType, sqlType.DefaultLength,
				sqlType.DefaultLength2, true)
		}
		if col.IsAutoIncrement {
			col.Nullable = false
		}

		table.AddColumn(col)

		if fieldType.Kind() == reflect.Int64 && (strings.ToUpper(col.FieldName) == "ID" || strings.HasSuffix(strings.ToUpper(col.FieldName), ".ID")) {
			idFieldColName = col.Name
		}
	} // end for

	if idFieldColName != "" && len(table.PrimaryKeys) == 0 {
		col := table.GetColumn(idFieldColName)
		col.IsPrimaryKey = true
		col.IsAutoIncrement = true
		col.Nullable = false
		table.PrimaryKeys = append(table.PrimaryKeys, col.Name)
		table.AutoIncrement = col.Name
	}

	if hasCacheTag {
		if engine.Cacher != nil { // !nash! use engine's cacher if provided
			engine.Logger.Info("enable cache on table:", table.Name)
			table.Cacher = engine.Cacher
		} else {
			engine.Logger.Info("enable LRU cache on table:", table.Name)
			table.Cacher = NewLRUCacher2(NewMemoryStore(), time.Hour, 10000) // !nashtsai! HACK use LRU cacher for now
		}
	}
	if hasNoCacheTag {
		engine.Logger.Info("no cache on table:", table.Name)
		table.Cacher = nil
	}

	return table
}

// Map a struct to a table
func (engine *Engine) mapping(beans ...interface{}) (e error) {
	engine.mutex.Lock()
	defer engine.mutex.Unlock()
	for _, bean := range beans {
		v := rValue(bean)
		engine.Tables[v.Type()] = engine.mapType(v)
	}
	return
}

// If a table has any reocrd
func (engine *Engine) IsTableEmpty(bean interface{}) (bool, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.IsTableEmpty(bean)
}

// If a table is exist
func (engine *Engine) IsTableExist(beanOrTableName interface{}) (bool, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.IsTableExist(beanOrTableName)
}

func (engine *Engine) IdOf(bean interface{}) core.PK {
	return engine.IdOfV(reflect.ValueOf(bean))
}

func (engine *Engine) IdOfV(rv reflect.Value) core.PK {
	v := reflect.Indirect(rv)
	table := engine.autoMapType(v)
	pk := make([]interface{}, len(table.PrimaryKeys))
	for i, col := range table.PKColumns() {
		pkField := v.FieldByName(col.FieldName)
		switch pkField.Kind() {
		case reflect.String:
			pk[i] = pkField.String()
		case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
			pk[i] = pkField.Int()
		case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
			pk[i] = pkField.Uint()
		}
	}
	return core.PK(pk)
}

// create indexes
func (engine *Engine) CreateIndexes(bean interface{}) error {
	session := engine.NewSession()
	defer session.Close()
	return session.CreateIndexes(bean)
}

// create uniques
func (engine *Engine) CreateUniques(bean interface{}) error {
	session := engine.NewSession()
	defer session.Close()
	return session.CreateUniques(bean)
}

func (engine *Engine) getCacher2(table *core.Table) core.Cacher {
	return table.Cacher
}

func (engine *Engine) getCacher(v reflect.Value) core.Cacher {
	if table := engine.autoMapType(v); table != nil {
		return table.Cacher
	}
	return engine.Cacher
}

// If enabled cache, clear the cache bean
func (engine *Engine) ClearCacheBean(bean interface{}, id string) error {
	t := rType(bean)
	if t.Kind() != reflect.Struct {
		return errors.New("error params")
	}
	table := engine.TableInfo(bean)
	cacher := table.Cacher
	if cacher == nil {
		cacher = engine.Cacher
	}
	if cacher != nil {
		cacher.ClearIds(table.Name)
		cacher.DelBean(table.Name, id)
	}
	return nil
}

// If enabled cache, clear some tables' cache
func (engine *Engine) ClearCache(beans ...interface{}) error {
	for _, bean := range beans {
		t := rType(bean)
		if t.Kind() != reflect.Struct {
			return errors.New("error params")
		}
		table := engine.TableInfo(bean)
		cacher := table.Cacher
		if cacher == nil {
			cacher = engine.Cacher
		}
		if cacher != nil {
			cacher.ClearIds(table.Name)
			cacher.ClearBeans(table.Name)
		}
	}
	return nil
}

// Sync the new struct changes to database, this method will automatically add
// table, column, index, unique. but will not delete or change anything.
// If you change some field, you should change the database manually.
func (engine *Engine) Sync(beans ...interface{}) error {
	for _, bean := range beans {
		table := engine.TableInfo(bean)

		s := engine.NewSession()
		defer s.Close()
		isExist, err := s.Table(bean).isTableExist(table.Name)
		if err != nil {
			return err
		}
		if !isExist {
			err = engine.CreateTables(bean)
			if err != nil {
				return err
			}
		}
		/*isEmpty, err := engine.IsEmptyTable(bean)
		  if err != nil {
		      return err
		  }*/
		var isEmpty bool = false
		if isEmpty {
			err = engine.DropTables(bean)
			if err != nil {
				return err
			}
			err = engine.CreateTables(bean)
			if err != nil {
				return err
			}
		} else {
			for _, col := range table.Columns() {
				session := engine.NewSession()
				session.Statement.RefTable = table
				defer session.Close()
				isExist, err := session.Engine.dialect.IsColumnExist(table.Name, col)
				if err != nil {
					return err
				}
				if !isExist {
					session := engine.NewSession()
					session.Statement.RefTable = table
					defer session.Close()
					err = session.addColumn(col.Name)
					if err != nil {
						return err
					}
				}
			}

			for name, index := range table.Indexes {
				session := engine.NewSession()
				session.Statement.RefTable = table
				defer session.Close()
				if index.Type == core.UniqueType {
					//isExist, err := session.isIndexExist(table.Name, name, true)
					isExist, err := session.isIndexExist2(table.Name, index.Cols, true)
					if err != nil {
						return err
					}
					if !isExist {
						session := engine.NewSession()
						session.Statement.RefTable = table
						defer session.Close()
						err = session.addUnique(table.Name, name)
						if err != nil {
							return err
						}
					}
				} else if index.Type == core.IndexType {
					isExist, err := session.isIndexExist2(table.Name, index.Cols, false)
					if err != nil {
						return err
					}
					if !isExist {
						session := engine.NewSession()
						session.Statement.RefTable = table
						defer session.Close()
						err = session.addIndex(table.Name, name)
						if err != nil {
							return err
						}
					}
				} else {
					return errors.New("unknow index type")
				}
			}
		}
	}
	return nil
}

func (engine *Engine) Sync2(beans ...interface{}) error {
	s := engine.NewSession()
	defer s.Close()
	return s.Sync2(beans...)
}

func (engine *Engine) unMap(beans ...interface{}) (e error) {
	engine.mutex.Lock()
	defer engine.mutex.Unlock()
	for _, bean := range beans {
		t := rType(bean)
		if _, ok := engine.Tables[t]; ok {
			delete(engine.Tables, t)
		}
	}
	return
}

// Drop all mapped table
func (engine *Engine) dropAll() error {
	session := engine.NewSession()
	defer session.Close()

	err := session.Begin()
	if err != nil {
		return err
	}
	err = session.dropAll()
	if err != nil {
		session.Rollback()
		return err
	}
	return session.Commit()
}

// CreateTables create tabls according bean
func (engine *Engine) CreateTables(beans ...interface{}) error {
	session := engine.NewSession()
	err := session.Begin()
	defer session.Close()
	if err != nil {
		return err
	}

	for _, bean := range beans {
		err = session.CreateTable(bean)
		if err != nil {
			session.Rollback()
			return err
		}
	}
	return session.Commit()
}

func (engine *Engine) DropTables(beans ...interface{}) error {
	session := engine.NewSession()
	defer session.Close()

	err := session.Begin()
	if err != nil {
		return err
	}

	for _, bean := range beans {
		err = session.DropTable(bean)
		if err != nil {
			session.Rollback()
			return err
		}
	}
	return session.Commit()
}

func (engine *Engine) createAll() error {
	session := engine.NewSession()
	defer session.Close()
	return session.createAll()
}

// Exec raw sql
func (engine *Engine) Exec(sql string, args ...interface{}) (sql.Result, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Exec(sql, args...)
}

// Exec a raw sql and return records as []map[string][]byte
func (engine *Engine) Query(sql string, paramStr ...interface{}) (resultsSlice []map[string][]byte, err error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Query(sql, paramStr...)
}

// Insert one or more records
func (engine *Engine) Insert(beans ...interface{}) (int64, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Insert(beans...)
}

// Insert only one record
func (engine *Engine) InsertOne(bean interface{}) (int64, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.InsertOne(bean)
}

// Update records, bean's non-empty fields are updated contents,
// condiBean' non-empty filds are conditions
// CAUTION:
//        1.bool will defaultly be updated content nor conditions
//         You should call UseBool if you have bool to use.
//        2.float32 & float64 may be not inexact as conditions
func (engine *Engine) Update(bean interface{}, condiBeans ...interface{}) (int64, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Update(bean, condiBeans...)
}

// Delete records, bean's non-empty fields are conditions
func (engine *Engine) Delete(bean interface{}) (int64, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Delete(bean)
}

// Get retrieve one record from table, bean's non-empty fields
// are conditions
func (engine *Engine) Get(bean interface{}) (bool, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Get(bean)
}

// Find retrieve records from table, condiBeans's non-empty fields
// are conditions. beans could be []Struct, []*Struct, map[int64]Struct
// map[int64]*Struct
func (engine *Engine) Find(beans interface{}, condiBeans ...interface{}) error {
	session := engine.NewSession()
	defer session.Close()
	return session.Find(beans, condiBeans...)
}

// Iterate record by record handle records from table, bean's non-empty fields
// are conditions.
func (engine *Engine) Iterate(bean interface{}, fun IterFunc) error {
	session := engine.NewSession()
	defer session.Close()
	return session.Iterate(bean, fun)
}

// Return sql.Rows compatible Rows obj, as a forward Iterator object for iterating record by record, bean's non-empty fields
// are conditions.
func (engine *Engine) Rows(bean interface{}) (*Rows, error) {
	session := engine.NewSession()
	return session.Rows(bean)
}

// Count counts the records. bean's non-empty fields
// are conditions.
func (engine *Engine) Count(bean interface{}) (int64, error) {
	session := engine.NewSession()
	defer session.Close()
	return session.Count(bean)
}

// Import SQL DDL file
func (engine *Engine) ImportFile(ddlPath string) ([]sql.Result, error) {
	file, err := os.Open(ddlPath)
	if err != nil {
		return nil, err
	}
	defer file.Close()
	return engine.Import(file)
}

// Import SQL DDL file
func (engine *Engine) Import(r io.Reader) ([]sql.Result, error) {
	var results []sql.Result
	var lastError error
	scanner := bufio.NewScanner(r)

	semiColSpliter := func(data []byte, atEOF bool) (advance int, token []byte, err error) {
		if atEOF && len(data) == 0 {
			return 0, nil, nil
		}
		if i := bytes.IndexByte(data, ';'); i >= 0 {
			return i + 1, data[0:i], nil
		}
		// If we're at EOF, we have a final, non-terminated line. Return it.
		if atEOF {
			return len(data), data, nil
		}
		// Request more data.
		return 0, nil, nil
	}

	scanner.Split(semiColSpliter)

	for scanner.Scan() {
		query := scanner.Text()
		query = strings.Trim(query, " \t")
		if len(query) > 0 {
			result, err := engine.DB().Exec(query)
			results = append(results, result)
			if err != nil {
				lastError = err
			}
		}
	}
	return results, lastError
}

var (
	NULL_TIME time.Time
)

func (engine *Engine) TZTime(t time.Time) time.Time {

	if NULL_TIME != t { // if time is not initialized it's not suitable for Time.In()
		return t.In(engine.TZLocation)
	}
	return t
}

func (engine *Engine) NowTime(sqlTypeName string) interface{} {
	t := time.Now()
	return engine.FormatTime(sqlTypeName, t)
}

func (engine *Engine) NowTime2(sqlTypeName string) (interface{}, time.Time) {
	t := time.Now()
	return engine.FormatTime(sqlTypeName, t), t
}

func (engine *Engine) FormatTime(sqlTypeName string, t time.Time) (v interface{}) {
	if engine.dialect.DBType() == core.ORACLE {
		return t
	}
	switch sqlTypeName {
	case core.Time:
		s := engine.TZTime(t).Format("2006-01-02 15:04:05") //time.RFC3339
		v = s[11:19]
	case core.Date:
		v = engine.TZTime(t).Format("2006-01-02")
	case core.DateTime, core.TimeStamp:
		if engine.dialect.DBType() == "ql" {
			v = engine.TZTime(t)
		} else if engine.dialect.DBType() == "sqlite3" {
			v = engine.TZTime(t).UTC().Format("2006-01-02 15:04:05")
		} else {
			v = engine.TZTime(t).Format("2006-01-02 15:04:05")
		}
	case core.TimeStampz:
		if engine.dialect.DBType() == core.MSSQL {
			v = engine.TZTime(t).Format("2006-01-02T15:04:05.9999999Z07:00")
		} else if engine.DriverName() == "mssql" {
			v = engine.TZTime(t)
		} else {
			v = engine.TZTime(t).Format(time.RFC3339Nano)
		}
	case core.BigInt, core.Int:
		v = engine.TZTime(t).Unix()
	default:
		v = engine.TZTime(t)
	}
	return
}

// Always disable struct tag "deleted"
func (engine *Engine) Unscoped() *Session {
	session := engine.NewSession()
	session.IsAutoClose = true
	return session.Unscoped()
}
Alerts (64)

Complexity hotspot; line 101 (total complexity: 4)
101
'interface{}' Empty interface; prefer specific types or generics for type safety
152 192 203 215 238 245 253 260 268 275 283 290 304 401 459 466 473 480 547 554 561 575 623 662 668 968 979 986 992 999 1015 1022 1040 1058 1080 1172 1178 1208 1226 1252 1259 1266 1273 1285 1292 1300 1309 1317 1325 1332 1397 1402 1407
'.([]byte)' Avoid unsafe type assertions like val.(type); prefer structs or interfaces for type safety
422 429
'.(string)' Avoid unsafe type assertions like val.(type); prefer structs or interfaces for type safety
424 707
'RLock()' Missing defer RUnlock(); ensure read locks are released
645
'if err != nil {' Ensure errors are handled or logged
865 869 874 1377
'append(' Multiple appends without pre-allocation; use make() with capacity when size is known
1376