xorm/engine.go
Lunny Xiao f63b42ff9b Move maptype to tag parser (#1561)
Move maptype to tag parser

Reviewed-on: xorm/xorm#1561
2020-02-28 02:00:21 +00:00

1335 lines
37 KiB
Go

// Copyright 2015 The Xorm Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package xorm
import (
"bufio"
"bytes"
"context"
"database/sql"
"errors"
"fmt"
"io"
"os"
"reflect"
"strconv"
"strings"
"time"
"xorm.io/builder"
"xorm.io/xorm/caches"
"xorm.io/xorm/core"
"xorm.io/xorm/dialects"
"xorm.io/xorm/internal/utils"
"xorm.io/xorm/log"
"xorm.io/xorm/names"
"xorm.io/xorm/schemas"
"xorm.io/xorm/tags"
)
// 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 dialects.Dialect
showSQL bool
showExecTime bool
logger log.Logger
TZLocation *time.Location // The timezone of the application
DatabaseTZ *time.Location // The timezone of the database
engineGroup *EngineGroup
defaultContext context.Context
tagParser *tags.Parser
cacherMgr *caches.Manager
}
func (engine *Engine) SetCacher(tableName string, cacher caches.Cacher) {
engine.cacherMgr.SetCacher(tableName, cacher)
}
func (engine *Engine) GetCacher(tableName string) caches.Cacher {
return engine.cacherMgr.GetCacher(tableName)
}
// BufferSize sets buffer size for iterate
func (engine *Engine) BufferSize(size int) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.BufferSize(size)
}
// CondDeleted returns the conditions whether a record is soft deleted.
func (engine *Engine) CondDeleted(col *schemas.Column) builder.Cond {
var cond = builder.NewCond()
if col.SQLType.IsNumeric() {
cond = builder.Eq{col.Name: 0}
} else {
// FIXME: mssql: The conversion of a nvarchar data type to a datetime data type resulted in an out-of-range value.
if engine.dialect.DBType() != schemas.MSSQL {
cond = builder.Eq{col.Name: utils.ZeroTime1}
}
}
if col.Nullable {
cond = cond.Or(builder.IsNull{col.Name})
}
return cond
}
// ShowSQL show SQL statement or not on logger if log level is great than INFO
func (engine *Engine) ShowSQL(show ...bool) {
engine.logger.ShowSQL(show...)
if len(show) == 0 {
engine.showSQL = true
} else {
engine.showSQL = show[0]
}
}
// ShowExecTime show SQL statement and execute time or not on logger if log level is great than INFO
func (engine *Engine) ShowExecTime(show ...bool) {
if len(show) == 0 {
engine.showExecTime = true
} else {
engine.showExecTime = show[0]
}
}
// Logger return the logger interface
func (engine *Engine) Logger() log.Logger {
return engine.logger
}
// SetLogger set the new logger
func (engine *Engine) SetLogger(logger log.Logger) {
engine.logger = logger
engine.showSQL = logger.IsShowSQL()
engine.dialect.SetLogger(logger)
}
// SetLogLevel sets the logger level
func (engine *Engine) SetLogLevel(level log.LogLevel) {
engine.logger.SetLevel(level)
}
// SetDisableGlobalCache disable global cache or not
func (engine *Engine) SetDisableGlobalCache(disable bool) {
engine.cacherMgr.SetDisableGlobalCache(disable)
}
// DriverName return the current sql driver's name
func (engine *Engine) DriverName() string {
return engine.dialect.DriverName()
}
// DataSourceName return the current connection string
func (engine *Engine) DataSourceName() string {
return engine.dialect.DataSourceName()
}
// SetMapper set the name mapping rules
func (engine *Engine) SetMapper(mapper names.Mapper) {
engine.SetTableMapper(mapper)
engine.SetColumnMapper(mapper)
}
// SetTableMapper set the table name mapping rule
func (engine *Engine) SetTableMapper(mapper names.Mapper) {
engine.tagParser.TableMapper = mapper
}
// SetColumnMapper set the column name mapping rule
func (engine *Engine) SetColumnMapper(mapper names.Mapper) {
engine.tagParser.ColumnMapper = mapper
}
// SupportInsertMany 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()
}
// Quote Use QuoteStr quote the string sql
func (engine *Engine) Quote(value string) string {
value = strings.TrimSpace(value)
if len(value) == 0 {
return value
}
buf := strings.Builder{}
engine.QuoteTo(&buf, value)
return buf.String()
}
// QuoteTo quotes string and writes into the buffer
func (engine *Engine) QuoteTo(buf *strings.Builder, value string) {
if buf == nil {
return
}
value = strings.TrimSpace(value)
if value == "" {
return
}
engine.dialect.Quoter().QuoteTo(buf, value)
}
// SQLType A simple wrapper to dialect's core.SqlType method
func (engine *Engine) SQLType(c *schemas.Column) string {
return engine.dialect.SQLType(c)
}
// AutoIncrStr Database's autoincrement statement
func (engine *Engine) AutoIncrStr() string {
return engine.dialect.AutoIncrStr()
}
// SetConnMaxLifetime sets the maximum amount of time a connection may be reused.
func (engine *Engine) SetConnMaxLifetime(d time.Duration) {
engine.db.SetConnMaxLifetime(d)
}
// SetMaxOpenConns is only available for go 1.2+
func (engine *Engine) SetMaxOpenConns(conns int) {
engine.db.SetMaxOpenConns(conns)
}
// SetMaxIdleConns set the max idle connections on pool, default is 2
func (engine *Engine) SetMaxIdleConns(conns int) {
engine.db.SetMaxIdleConns(conns)
}
// SetDefaultCacher set the default cacher. Xorm's default not enable cacher.
func (engine *Engine) SetDefaultCacher(cacher caches.Cacher) {
engine.cacherMgr.SetDefaultCacher(cacher)
}
// GetDefaultCacher returns the default cacher
func (engine *Engine) GetDefaultCacher() caches.Cacher {
return engine.cacherMgr.GetDefaultCacher()
}
// NoCache 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()
}
// NoCascade If you do not want to auto cascade load object
func (engine *Engine) NoCascade() *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.NoCascade()
}
// MapCacher Set a table use a special cacher
func (engine *Engine) MapCacher(bean interface{}, cacher caches.Cacher) error {
engine.SetCacher(engine.TableName(bean, true), cacher)
return nil
}
// NewDB provides an interface to operate database directly
func (engine *Engine) NewDB() (*core.DB, error) {
return dialects.OpenDialect(engine.dialect)
}
// DB return the wrapper of sql.DB
func (engine *Engine) DB() *core.DB {
return engine.db
}
// Dialect return database dialect
func (engine *Engine) Dialect() dialects.Dialect {
return engine.dialect
}
// NewSession 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()
return session.Ping()
}
// logSQL save sql
func (engine *Engine) logSQL(sqlStr string, sqlArgs ...interface{}) {
if engine.showSQL && !engine.showExecTime {
if len(sqlArgs) > 0 {
engine.logger.Infof("[SQL] %v %#v", sqlStr, sqlArgs)
} else {
engine.logger.Infof("[SQL] %v", sqlStr)
}
}
}
// SQL method let's you manually 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(query interface{}, args ...interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.SQL(query, args...)
}
// NoAutoTime 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()
}
// NoAutoCondition disable auto generate Where condition from bean or not
func (engine *Engine) NoAutoCondition(no ...bool) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.NoAutoCondition(no...)
}
func (engine *Engine) loadTableInfo(table *schemas.Table) error {
colSeq, cols, err := engine.dialect.GetColumns(engine.defaultContext, table.Name)
if err != nil {
return err
}
for _, name := range colSeq {
table.AddColumn(cols[name])
}
indexes, err := engine.dialect.GetIndexes(engine.defaultContext, table.Name)
if err != nil {
return err
}
table.Indexes = indexes
for _, index := range indexes {
for _, name := range index.Cols {
if col := table.GetColumn(name); col != nil {
col.Indexes[index.Name] = index.Type
} else {
return fmt.Errorf("Unknown col %s in index %v of table %v, columns %v", name, index.Name, table.Name, table.ColumnsSeq())
}
}
}
return nil
}
// DBMetas Retrieve all tables, columns, indexes' informations from database.
func (engine *Engine) DBMetas() ([]*schemas.Table, error) {
tables, err := engine.dialect.GetTables(engine.defaultContext)
if err != nil {
return nil, err
}
for _, table := range tables {
if err = engine.loadTableInfo(table); err != nil {
return nil, err
}
}
return tables, nil
}
// DumpAllToFile dump database all table structs and data to a file
func (engine *Engine) DumpAllToFile(fp string, tp ...dialects.DBType) error {
f, err := os.Create(fp)
if err != nil {
return err
}
defer f.Close()
return engine.DumpAll(f, tp...)
}
// DumpAll dump database all table structs and data to w
func (engine *Engine) DumpAll(w io.Writer, tp ...dialects.DBType) error {
tables, err := engine.DBMetas()
if err != nil {
return err
}
return engine.DumpTables(tables, w, tp...)
}
// DumpTablesToFile dump specified tables to SQL file.
func (engine *Engine) DumpTablesToFile(tables []*schemas.Table, fp string, tp ...dialects.DBType) error {
f, err := os.Create(fp)
if err != nil {
return err
}
defer f.Close()
return engine.DumpTables(tables, f, tp...)
}
// DumpTables dump specify tables to io.Writer
func (engine *Engine) DumpTables(tables []*schemas.Table, w io.Writer, tp ...dialects.DBType) error {
return engine.dumpTables(tables, w, tp...)
}
// dumpTables dump database all table structs and data to w with specify db type
func (engine *Engine) dumpTables(tables []*schemas.Table, w io.Writer, tp ...dialects.DBType) error {
var dialect dialects.Dialect
var distDBName string
if len(tp) == 0 {
dialect = engine.dialect
distDBName = string(engine.dialect.DBType())
} else {
dialect = dialects.QueryDialect(tp[0])
if dialect == nil {
return errors.New("Unsupported database type")
}
dialect.Init(nil, engine.dialect.URI(), "", "")
distDBName = string(tp[0])
}
_, err := io.WriteString(w, fmt.Sprintf("/*Generated by xorm v%s %s, from %s to %s*/\n\n",
Version, time.Now().In(engine.TZLocation).Format("2006-01-02 15:04:05"), engine.dialect.DBType(), strings.ToUpper(distDBName)))
if err != nil {
return err
}
for i, table := range tables {
if i > 0 {
_, err = io.WriteString(w, "\n")
if err != nil {
return err
}
}
_, err = io.WriteString(w, dialect.CreateTableSQL(table, "", table.StoreEngine, "")+";\n")
if err != nil {
return err
}
for _, index := range table.Indexes {
_, err = io.WriteString(w, dialect.CreateIndexSQL(table.Name, index)+";\n")
if err != nil {
return err
}
}
cols := table.ColumnsSeq()
colNames := engine.dialect.Quoter().Join(cols, ", ")
destColNames := dialect.Quoter().Join(cols, ", ")
rows, err := engine.DB().QueryContext(engine.defaultContext, "SELECT "+colNames+" FROM "+engine.Quote(table.Name))
if err != nil {
return err
}
defer rows.Close()
for rows.Next() {
dest := make([]interface{}, len(cols))
err = rows.ScanSlice(&dest)
if err != nil {
return err
}
_, err = io.WriteString(w, "INSERT INTO "+dialect.Quoter().Quote(table.Name)+" ("+destColNames+") VALUES (")
if err != nil {
return err
}
var temp string
for i, d := range dest {
col := table.GetColumn(cols[i])
if col == nil {
return errors.New("unknow column error")
}
if d == nil {
temp += ", NULL"
} else if col.SQLType.IsText() || col.SQLType.IsTime() {
var v = fmt.Sprintf("%s", d)
if strings.HasSuffix(v, " +0000 UTC") {
temp += fmt.Sprintf(", '%s'", v[0:len(v)-len(" +0000 UTC")])
} else {
temp += ", '" + strings.Replace(v, "'", "''", -1) + "'"
}
} else if col.SQLType.IsBlob() {
if reflect.TypeOf(d).Kind() == reflect.Slice {
temp += fmt.Sprintf(", %s", 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:
if col.SQLType.Name == schemas.Bool {
temp += fmt.Sprintf(", %v", strconv.FormatBool(d.([]byte)[0] != byte('0')))
} else {
temp += fmt.Sprintf(", %s", string(d.([]byte)))
}
case reflect.Int16, reflect.Int8, reflect.Int32, reflect.Int64, reflect.Int:
if col.SQLType.Name == schemas.Bool {
temp += fmt.Sprintf(", %v", strconv.FormatBool(reflect.ValueOf(d).Int() > 0))
} else {
temp += fmt.Sprintf(", %v", d)
}
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
if col.SQLType.Name == schemas.Bool {
temp += fmt.Sprintf(", %v", strconv.FormatBool(reflect.ValueOf(d).Uint() > 0))
} else {
temp += fmt.Sprintf(", %v", d)
}
default:
temp += fmt.Sprintf(", %v", d)
}
} else {
s := fmt.Sprintf("%v", d)
if strings.Contains(s, ":") || strings.Contains(s, "-") {
if strings.HasSuffix(s, " +0000 UTC") {
temp += fmt.Sprintf(", '%s'", s[0:len(s)-len(" +0000 UTC")])
} else {
temp += fmt.Sprintf(", '%s'", s)
}
} else {
temp += fmt.Sprintf(", %s", s)
}
}
}
_, err = io.WriteString(w, temp[2:]+");\n")
if err != nil {
return err
}
}
// FIXME: Hack for postgres
if string(dialect.DBType()) == schemas.POSTGRES && table.AutoIncrColumn() != nil {
_, err = io.WriteString(w, "SELECT setval('"+table.Name+"_id_seq', COALESCE((SELECT MAX("+table.AutoIncrColumn().Name+") + 1 FROM "+dialect.Quoter().Quote(table.Name)+"), 1), false);\n")
if err != nil {
return err
}
}
}
return nil
}
// Cascade 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(query interface{}, args ...interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Where(query, args...)
}
// ID method provoide a condition as (id) = ?
func (engine *Engine) ID(id interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.ID(id)
}
// Before 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)
}
// After 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)
}
// Charset 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)
}
// StoreEngine 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)
}
// Distinct 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...)
}
// Select customerize your select columns or contents
func (engine *Engine) Select(str string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Select(str)
}
// Cols only use the parameters as select or update columns
func (engine *Engine) Cols(columns ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Cols(columns...)
}
// AllCols indicates that all columns should be use
func (engine *Engine) AllCols() *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.AllCols()
}
// MustCols specify some columns must use even if they are empty
func (engine *Engine) MustCols(columns ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.MustCols(columns...)
}
// UseBool 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 parameters, it will use all the bool field of struct, or
// it will use parameters's columns
func (engine *Engine) UseBool(columns ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.UseBool(columns...)
}
// Omit only not use the parameters as select or update columns
func (engine *Engine) Omit(columns ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Omit(columns...)
}
// Nullable set null when column is zero-value and nullable for update
func (engine *Engine) Nullable(columns ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Nullable(columns...)
}
// In will generate "column IN (?, ?)"
func (engine *Engine) In(column string, args ...interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.In(column, args...)
}
// NotIn will generate "column NOT IN (?, ?)"
func (engine *Engine) NotIn(column string, args ...interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.NotIn(column, args...)
}
// Incr 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...)
}
// 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...)
}
// SetExpr provides a update string like "column = {expression}"
func (engine *Engine) SetExpr(column string, expression interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.SetExpr(column, expression)
}
// Table 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)
}
// Alias set the table alias
func (engine *Engine) Alias(alias string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Alias(alias)
}
// Limit 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...)
}
// Desc will generate "ORDER BY column1 DESC, column2 DESC"
func (engine *Engine) Desc(colNames ...string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Desc(colNames...)
}
// 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...)
}
// OrderBy will generate "ORDER BY order"
func (engine *Engine) OrderBy(order string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.OrderBy(order)
}
// Prepare enables prepare statement
func (engine *Engine) Prepare() *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Prepare()
}
// Join the join_operator should be one of INNER, LEFT OUTER, CROSS etc - this will be prepended to JOIN
func (engine *Engine) Join(joinOperator string, tablename interface{}, condition string, args ...interface{}) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Join(joinOperator, tablename, condition, args...)
}
// GroupBy generate group by statement
func (engine *Engine) GroupBy(keys string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.GroupBy(keys)
}
// Having generate having statement
func (engine *Engine) Having(conditions string) *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Having(conditions)
}
// Table table struct
type Table struct {
*schemas.Table
Name string
}
// IsValid if table is valid
func (t *Table) IsValid() bool {
return t.Table != nil && len(t.Name) > 0
}
// TableInfo get table info according to bean's content
func (engine *Engine) TableInfo(bean interface{}) *Table {
v := rValue(bean)
tb, err := engine.tagParser.MapType(v)
if err != nil {
engine.logger.Error(err)
}
return &Table{tb, engine.TableName(bean)}
}
// IsTableEmpty if a table has any reocrd
func (engine *Engine) IsTableEmpty(bean interface{}) (bool, error) {
session := engine.NewSession()
defer session.Close()
return session.IsTableEmpty(bean)
}
// IsTableExist if a table is exist
func (engine *Engine) IsTableExist(beanOrTableName interface{}) (bool, error) {
session := engine.NewSession()
defer session.Close()
return session.IsTableExist(beanOrTableName)
}
// IDOf get id from one struct
func (engine *Engine) IDOf(bean interface{}) schemas.PK {
return engine.IDOfV(reflect.ValueOf(bean))
}
// IDOfV get id from one value of struct
func (engine *Engine) IDOfV(rv reflect.Value) schemas.PK {
pk, err := engine.idOfV(rv)
if err != nil {
engine.logger.Error(err)
return nil
}
return pk
}
func (engine *Engine) idOfV(rv reflect.Value) (schemas.PK, error) {
v := reflect.Indirect(rv)
table, err := engine.tagParser.MapType(v)
if err != nil {
return nil, err
}
pk := make([]interface{}, len(table.PrimaryKeys))
for i, col := range table.PKColumns() {
var err error
fieldName := col.FieldName
for {
parts := strings.SplitN(fieldName, ".", 2)
if len(parts) == 1 {
break
}
v = v.FieldByName(parts[0])
if v.Kind() == reflect.Ptr {
v = v.Elem()
}
if v.Kind() != reflect.Struct {
return nil, ErrUnSupportedType
}
fieldName = parts[1]
}
pkField := v.FieldByName(fieldName)
switch pkField.Kind() {
case reflect.String:
pk[i], err = engine.idTypeAssertion(col, pkField.String())
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
pk[i], err = engine.idTypeAssertion(col, strconv.FormatInt(pkField.Int(), 10))
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
// id of uint will be converted to int64
pk[i], err = engine.idTypeAssertion(col, strconv.FormatUint(pkField.Uint(), 10))
}
if err != nil {
return nil, err
}
}
return schemas.PK(pk), nil
}
func (engine *Engine) idTypeAssertion(col *schemas.Column, sid string) (interface{}, error) {
if col.SQLType.IsNumeric() {
n, err := strconv.ParseInt(sid, 10, 64)
if err != nil {
return nil, err
}
return n, nil
} else if col.SQLType.IsText() {
return sid, nil
} else {
return nil, errors.New("not supported")
}
}
// CreateIndexes create indexes
func (engine *Engine) CreateIndexes(bean interface{}) error {
session := engine.NewSession()
defer session.Close()
return session.CreateIndexes(bean)
}
// CreateUniques create uniques
func (engine *Engine) CreateUniques(bean interface{}) error {
session := engine.NewSession()
defer session.Close()
return session.CreateUniques(bean)
}
// ClearCacheBean if enabled cache, clear the cache bean
func (engine *Engine) ClearCacheBean(bean interface{}, id string) error {
tableName := engine.TableName(bean)
cacher := engine.GetCacher(tableName)
if cacher != nil {
cacher.ClearIds(tableName)
cacher.DelBean(tableName, id)
}
return nil
}
// ClearCache if enabled cache, clear some tables' cache
func (engine *Engine) ClearCache(beans ...interface{}) error {
for _, bean := range beans {
tableName := engine.TableName(bean)
cacher := engine.GetCacher(tableName)
if cacher != nil {
cacher.ClearIds(tableName)
cacher.ClearBeans(tableName)
}
}
return nil
}
// UnMapType remove table from tables cache
func (engine *Engine) UnMapType(t reflect.Type) {
engine.tagParser.ClearTable(t)
}
// 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 {
session := engine.NewSession()
defer session.Close()
for _, bean := range beans {
v := rValue(bean)
tableNameNoSchema := engine.TableName(bean)
table, err := engine.tagParser.MapType(v)
if err != nil {
return err
}
isExist, err := session.Table(bean).isTableExist(tableNameNoSchema)
if err != nil {
return err
}
if !isExist {
err = session.createTable(bean)
if err != nil {
return err
}
}
/*isEmpty, err := engine.IsEmptyTable(bean)
if err != nil {
return err
}*/
var isEmpty bool
if isEmpty {
err = session.dropTable(bean)
if err != nil {
return err
}
err = session.createTable(bean)
if err != nil {
return err
}
} else {
for _, col := range table.Columns() {
isExist, err := engine.dialect.IsColumnExist(session.ctx, tableNameNoSchema, col.Name)
if err != nil {
return err
}
if !isExist {
if err := session.statement.setRefBean(bean); err != nil {
return err
}
err = session.addColumn(col.Name)
if err != nil {
return err
}
}
}
for name, index := range table.Indexes {
if err := session.statement.setRefBean(bean); err != nil {
return err
}
if index.Type == schemas.UniqueType {
isExist, err := session.isIndexExist2(tableNameNoSchema, index.Cols, true)
if err != nil {
return err
}
if !isExist {
if err := session.statement.setRefBean(bean); err != nil {
return err
}
err = session.addUnique(tableNameNoSchema, name)
if err != nil {
return err
}
}
} else if index.Type == schemas.IndexType {
isExist, err := session.isIndexExist2(tableNameNoSchema, index.Cols, false)
if err != nil {
return err
}
if !isExist {
if err := session.statement.setRefBean(bean); err != nil {
return err
}
err = session.addIndex(tableNameNoSchema, name)
if err != nil {
return err
}
}
} else {
return errors.New("unknow index type")
}
}
}
}
return nil
}
// Sync2 synchronize structs to database tables
func (engine *Engine) Sync2(beans ...interface{}) error {
s := engine.NewSession()
defer s.Close()
return s.Sync2(beans...)
}
// CreateTables create tabls according bean
func (engine *Engine) CreateTables(beans ...interface{}) error {
session := engine.NewSession()
defer session.Close()
err := session.Begin()
if err != nil {
return err
}
for _, bean := range beans {
err = session.createTable(bean)
if err != nil {
session.Rollback()
return err
}
}
return session.Commit()
}
// DropTables drop specify tables
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()
}
// DropIndexes drop indexes of a table
func (engine *Engine) DropIndexes(bean interface{}) error {
session := engine.NewSession()
defer session.Close()
return session.DropIndexes(bean)
}
// Exec raw sql
func (engine *Engine) Exec(sqlOrArgs ...interface{}) (sql.Result, error) {
session := engine.NewSession()
defer session.Close()
return session.Exec(sqlOrArgs...)
}
// Query a raw sql and return records as []map[string][]byte
func (engine *Engine) Query(sqlOrArgs ...interface{}) (resultsSlice []map[string][]byte, err error) {
session := engine.NewSession()
defer session.Close()
return session.Query(sqlOrArgs...)
}
// QueryString runs a raw sql and return records as []map[string]string
func (engine *Engine) QueryString(sqlOrArgs ...interface{}) ([]map[string]string, error) {
session := engine.NewSession()
defer session.Close()
return session.QueryString(sqlOrArgs...)
}
// QueryInterface runs a raw sql and return records as []map[string]interface{}
func (engine *Engine) QueryInterface(sqlOrArgs ...interface{}) ([]map[string]interface{}, error) {
session := engine.NewSession()
defer session.Close()
return session.QueryInterface(sqlOrArgs...)
}
// Insert one or more records
func (engine *Engine) Insert(beans ...interface{}) (int64, error) {
session := engine.NewSession()
defer session.Close()
return session.Insert(beans...)
}
// InsertOne 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)
}
// Exist returns true if the record exist otherwise return false
func (engine *Engine) Exist(bean ...interface{}) (bool, error) {
session := engine.NewSession()
defer session.Close()
return session.Exist(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...)
}
// FindAndCount find the results and also return the counts
func (engine *Engine) FindAndCount(rowsSlicePtr interface{}, condiBean ...interface{}) (int64, error) {
session := engine.NewSession()
defer session.Close()
return session.FindAndCount(rowsSlicePtr, condiBean...)
}
// 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)
}
// Rows 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...)
}
// Sum sum the records by some column. bean's non-empty fields are conditions.
func (engine *Engine) Sum(bean interface{}, colName string) (float64, error) {
session := engine.NewSession()
defer session.Close()
return session.Sum(bean, colName)
}
// SumInt sum the records by some column. bean's non-empty fields are conditions.
func (engine *Engine) SumInt(bean interface{}, colName string) (int64, error) {
session := engine.NewSession()
defer session.Close()
return session.SumInt(bean, colName)
}
// Sums sum the records by some columns. bean's non-empty fields are conditions.
func (engine *Engine) Sums(bean interface{}, colNames ...string) ([]float64, error) {
session := engine.NewSession()
defer session.Close()
return session.Sums(bean, colNames...)
}
// SumsInt like Sums but return slice of int64 instead of float64.
func (engine *Engine) SumsInt(bean interface{}, colNames ...string) ([]int64, error) {
session := engine.NewSession()
defer session.Close()
return session.SumsInt(bean, colNames...)
}
// ImportFile 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 from io.Reader
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 := strings.Trim(scanner.Text(), " \t\n\r")
if len(query) > 0 {
engine.logSQL(query)
result, err := engine.DB().Exec(query)
results = append(results, result)
if err != nil {
return nil, err
}
}
}
return results, lastError
}
// nowTime return current time
func (engine *Engine) nowTime(col *schemas.Column) (interface{}, time.Time) {
t := time.Now()
var tz = engine.DatabaseTZ
if !col.DisableTimeZone && col.TimeZone != nil {
tz = col.TimeZone
}
return engine.formatTime(col.SQLType.Name, t.In(tz)), t.In(engine.TZLocation)
}
func (engine *Engine) formatColTime(col *schemas.Column, t time.Time) (v interface{}) {
if t.IsZero() {
if col.Nullable {
return nil
}
return ""
}
if col.TimeZone != nil {
return engine.formatTime(col.SQLType.Name, t.In(col.TimeZone))
}
return engine.formatTime(col.SQLType.Name, t.In(engine.DatabaseTZ))
}
// formatTime format time as column type
func (engine *Engine) formatTime(sqlTypeName string, t time.Time) (v interface{}) {
switch sqlTypeName {
case schemas.Time:
s := t.Format("2006-01-02 15:04:05") // time.RFC3339
v = s[11:19]
case schemas.Date:
v = t.Format("2006-01-02")
case schemas.DateTime, schemas.TimeStamp, schemas.Varchar: // !DarthPestilane! format time when sqlTypeName is schemas.Varchar.
v = t.Format("2006-01-02 15:04:05")
case schemas.TimeStampz:
if engine.dialect.DBType() == schemas.MSSQL {
v = t.Format("2006-01-02T15:04:05.9999999Z07:00")
} else {
v = t.Format(time.RFC3339Nano)
}
case schemas.BigInt, schemas.Int:
v = t.Unix()
default:
v = t
}
return
}
// GetColumnMapper returns the column name mapper
func (engine *Engine) GetColumnMapper() names.Mapper {
return engine.tagParser.ColumnMapper
}
// GetTableMapper returns the table name mapper
func (engine *Engine) GetTableMapper() names.Mapper {
return engine.tagParser.TableMapper
}
// GetTZLocation returns time zone of the application
func (engine *Engine) GetTZLocation() *time.Location {
return engine.TZLocation
}
// SetTZLocation sets time zone of the application
func (engine *Engine) SetTZLocation(tz *time.Location) {
engine.TZLocation = tz
}
// GetTZDatabase returns time zone of the database
func (engine *Engine) GetTZDatabase() *time.Location {
return engine.DatabaseTZ
}
// SetTZDatabase sets time zone of the database
func (engine *Engine) SetTZDatabase(tz *time.Location) {
engine.DatabaseTZ = tz
}
// SetSchema sets the schema of database
func (engine *Engine) SetSchema(schema string) {
engine.dialect.URI().Schema = schema
}
// Unscoped always disable struct tag "deleted"
func (engine *Engine) Unscoped() *Session {
session := engine.NewSession()
session.isAutoClose = true
return session.Unscoped()
}