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gitea/vendor/github.com/go-xorm/xorm/statement.go

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2016-11-04 06:16:01 +08:00
// 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 (
"bytes"
"database/sql/driver"
"encoding/json"
"errors"
"fmt"
"reflect"
"strings"
"time"
"github.com/go-xorm/builder"
"github.com/go-xorm/core"
)
type incrParam struct {
colName string
arg interface{}
}
type decrParam struct {
colName string
arg interface{}
}
type exprParam struct {
colName string
expr string
}
// Statement save all the sql info for executing SQL
type Statement struct {
RefTable *core.Table
Engine *Engine
Start int
LimitN int
idParam *core.PK
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OrderStr string
JoinStr string
joinArgs []interface{}
GroupByStr string
HavingStr string
ColumnStr string
selectStr string
columnMap map[string]bool
useAllCols bool
OmitStr string
AltTableName string
tableName string
RawSQL string
RawParams []interface{}
UseCascade bool
UseAutoJoin bool
StoreEngine string
Charset string
UseCache bool
UseAutoTime bool
noAutoCondition bool
IsDistinct bool
IsForUpdate bool
TableAlias string
allUseBool bool
checkVersion bool
unscoped bool
mustColumnMap map[string]bool
nullableMap map[string]bool
incrColumns map[string]incrParam
decrColumns map[string]decrParam
exprColumns map[string]exprParam
cond builder.Cond
bufferSize int
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}
// Init reset all the statement's fields
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func (statement *Statement) Init() {
statement.RefTable = nil
statement.Start = 0
statement.LimitN = 0
statement.OrderStr = ""
statement.UseCascade = true
statement.JoinStr = ""
statement.joinArgs = make([]interface{}, 0)
statement.GroupByStr = ""
statement.HavingStr = ""
statement.ColumnStr = ""
statement.OmitStr = ""
statement.columnMap = make(map[string]bool)
statement.AltTableName = ""
statement.tableName = ""
statement.idParam = nil
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statement.RawSQL = ""
statement.RawParams = make([]interface{}, 0)
statement.UseCache = true
statement.UseAutoTime = true
statement.noAutoCondition = false
statement.IsDistinct = false
statement.IsForUpdate = false
statement.TableAlias = ""
statement.selectStr = ""
statement.allUseBool = false
statement.useAllCols = false
statement.mustColumnMap = make(map[string]bool)
statement.nullableMap = make(map[string]bool)
statement.checkVersion = true
statement.unscoped = false
statement.incrColumns = make(map[string]incrParam)
statement.decrColumns = make(map[string]decrParam)
statement.exprColumns = make(map[string]exprParam)
statement.cond = builder.NewCond()
statement.bufferSize = 0
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}
// NoAutoCondition if you do not want convert bean's field as query condition, then use this function
func (statement *Statement) NoAutoCondition(no ...bool) *Statement {
statement.noAutoCondition = true
if len(no) > 0 {
statement.noAutoCondition = no[0]
}
return statement
}
// Alias set the table alias
func (statement *Statement) Alias(alias string) *Statement {
statement.TableAlias = alias
return statement
}
// SQL adds raw sql statement
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func (statement *Statement) SQL(query interface{}, args ...interface{}) *Statement {
switch query.(type) {
case (*builder.Builder):
var err error
statement.RawSQL, statement.RawParams, err = query.(*builder.Builder).ToSQL()
if err != nil {
statement.Engine.logger.Error(err)
}
case string:
statement.RawSQL = query.(string)
statement.RawParams = args
default:
statement.Engine.logger.Error("unsupported sql type")
}
return statement
}
// Where add Where statement
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func (statement *Statement) Where(query interface{}, args ...interface{}) *Statement {
return statement.And(query, args...)
}
// And add Where & and statement
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func (statement *Statement) And(query interface{}, args ...interface{}) *Statement {
switch query.(type) {
case string:
cond := builder.Expr(query.(string), args...)
statement.cond = statement.cond.And(cond)
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case map[string]interface{}:
cond := builder.Eq(query.(map[string]interface{}))
statement.cond = statement.cond.And(cond)
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case builder.Cond:
cond := query.(builder.Cond)
statement.cond = statement.cond.And(cond)
for _, v := range args {
if vv, ok := v.(builder.Cond); ok {
statement.cond = statement.cond.And(vv)
}
}
default:
// TODO: not support condition type
}
return statement
}
// Or add Where & Or statement
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func (statement *Statement) Or(query interface{}, args ...interface{}) *Statement {
switch query.(type) {
case string:
cond := builder.Expr(query.(string), args...)
statement.cond = statement.cond.Or(cond)
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case map[string]interface{}:
cond := builder.Eq(query.(map[string]interface{}))
statement.cond = statement.cond.Or(cond)
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case builder.Cond:
cond := query.(builder.Cond)
statement.cond = statement.cond.Or(cond)
for _, v := range args {
if vv, ok := v.(builder.Cond); ok {
statement.cond = statement.cond.Or(vv)
}
}
default:
// TODO: not support condition type
}
return statement
}
// In generate "Where column IN (?) " statement
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func (statement *Statement) In(column string, args ...interface{}) *Statement {
in := builder.In(statement.Engine.Quote(column), args...)
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statement.cond = statement.cond.And(in)
return statement
}
// NotIn generate "Where column NOT IN (?) " statement
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func (statement *Statement) NotIn(column string, args ...interface{}) *Statement {
notIn := builder.NotIn(statement.Engine.Quote(column), args...)
statement.cond = statement.cond.And(notIn)
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return statement
}
func (statement *Statement) setRefValue(v reflect.Value) error {
var err error
statement.RefTable, err = statement.Engine.autoMapType(reflect.Indirect(v))
if err != nil {
return err
}
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statement.tableName = statement.Engine.tbName(v)
return nil
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}
// Table tempororily set table name, the parameter could be a string or a pointer of struct
func (statement *Statement) Table(tableNameOrBean interface{}) *Statement {
v := rValue(tableNameOrBean)
t := v.Type()
if t.Kind() == reflect.String {
statement.AltTableName = tableNameOrBean.(string)
} else if t.Kind() == reflect.Struct {
var err error
statement.RefTable, err = statement.Engine.autoMapType(v)
if err != nil {
statement.Engine.logger.Error(err)
return statement
}
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statement.AltTableName = statement.Engine.tbName(v)
}
return statement
}
// Auto generating update columnes and values according a struct
func buildUpdates(engine *Engine, table *core.Table, bean interface{},
includeVersion bool, includeUpdated bool, includeNil bool,
includeAutoIncr bool, allUseBool bool, useAllCols bool,
mustColumnMap map[string]bool, nullableMap map[string]bool,
columnMap map[string]bool, update, unscoped bool) ([]string, []interface{}) {
var colNames = make([]string, 0)
var args = make([]interface{}, 0)
for _, col := range table.Columns() {
if !includeVersion && col.IsVersion {
continue
}
if col.IsCreated {
continue
}
if !includeUpdated && col.IsUpdated {
continue
}
if !includeAutoIncr && col.IsAutoIncrement {
continue
}
if col.IsDeleted && !unscoped {
continue
}
if use, ok := columnMap[strings.ToLower(col.Name)]; ok && !use {
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continue
}
fieldValuePtr, err := col.ValueOf(bean)
if err != nil {
engine.logger.Error(err)
continue
}
fieldValue := *fieldValuePtr
fieldType := reflect.TypeOf(fieldValue.Interface())
if fieldType == nil {
continue
}
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requiredField := useAllCols
includeNil := useAllCols
if b, ok := getFlagForColumn(mustColumnMap, col); ok {
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if b {
requiredField = true
} else {
continue
}
}
// !evalphobia! set fieldValue as nil when column is nullable and zero-value
if b, ok := getFlagForColumn(nullableMap, col); ok {
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if b && col.Nullable && isZero(fieldValue.Interface()) {
var nilValue *int
fieldValue = reflect.ValueOf(nilValue)
fieldType = reflect.TypeOf(fieldValue.Interface())
includeNil = true
}
}
var val interface{}
if fieldValue.CanAddr() {
if structConvert, ok := fieldValue.Addr().Interface().(core.Conversion); ok {
data, err := structConvert.ToDB()
if err != nil {
engine.logger.Error(err)
} else {
val = data
}
goto APPEND
}
}
if structConvert, ok := fieldValue.Interface().(core.Conversion); ok {
data, err := structConvert.ToDB()
if err != nil {
engine.logger.Error(err)
} else {
val = data
}
goto APPEND
}
if fieldType.Kind() == reflect.Ptr {
if fieldValue.IsNil() {
if includeNil {
args = append(args, nil)
colNames = append(colNames, fmt.Sprintf("%v=?", engine.Quote(col.Name)))
}
continue
} else if !fieldValue.IsValid() {
continue
} else {
// dereference ptr type to instance type
fieldValue = fieldValue.Elem()
fieldType = reflect.TypeOf(fieldValue.Interface())
requiredField = true
}
}
switch fieldType.Kind() {
case reflect.Bool:
if allUseBool || requiredField {
val = fieldValue.Interface()
} else {
// if a bool in a struct, it will not be as a condition because it default is false,
// please use Where() instead
continue
}
case reflect.String:
if !requiredField && fieldValue.String() == "" {
continue
}
// for MyString, should convert to string or panic
if fieldType.String() != reflect.String.String() {
val = fieldValue.String()
} else {
val = fieldValue.Interface()
}
case reflect.Int8, reflect.Int16, reflect.Int, reflect.Int32, reflect.Int64:
if !requiredField && fieldValue.Int() == 0 {
continue
}
val = fieldValue.Interface()
case reflect.Float32, reflect.Float64:
if !requiredField && fieldValue.Float() == 0.0 {
continue
}
val = fieldValue.Interface()
case reflect.Uint8, reflect.Uint16, reflect.Uint, reflect.Uint32, reflect.Uint64:
if !requiredField && fieldValue.Uint() == 0 {
continue
}
t := int64(fieldValue.Uint())
val = reflect.ValueOf(&t).Interface()
case reflect.Struct:
if fieldType.ConvertibleTo(core.TimeType) {
t := fieldValue.Convert(core.TimeType).Interface().(time.Time)
if !requiredField && (t.IsZero() || !fieldValue.IsValid()) {
continue
}
val = engine.formatColTime(col, t)
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} else if nulType, ok := fieldValue.Interface().(driver.Valuer); ok {
val, _ = nulType.Value()
} else {
if !col.SQLType.IsJson() {
engine.autoMapType(fieldValue)
if table, ok := engine.Tables[fieldValue.Type()]; ok {
if len(table.PrimaryKeys) == 1 {
pkField := reflect.Indirect(fieldValue).FieldByName(table.PKColumns()[0].FieldName)
// fix non-int pk issues
if pkField.IsValid() && (!requiredField && !isZero(pkField.Interface())) {
val = pkField.Interface()
} else {
continue
}
} else {
//TODO: how to handler?
panic("not supported")
}
} else {
val = fieldValue.Interface()
}
} else {
// Blank struct could not be as update data
if requiredField || !isStructZero(fieldValue) {
bytes, err := json.Marshal(fieldValue.Interface())
if err != nil {
panic(fmt.Sprintf("mashal %v failed", fieldValue.Interface()))
}
if col.SQLType.IsText() {
val = string(bytes)
} else if col.SQLType.IsBlob() {
val = bytes
}
} else {
continue
}
}
}
case reflect.Array, reflect.Slice, reflect.Map:
if !requiredField {
if fieldValue == reflect.Zero(fieldType) {
continue
}
if fieldType.Kind() == reflect.Array {
if isArrayValueZero(fieldValue) {
continue
}
} else if fieldValue.IsNil() || !fieldValue.IsValid() || fieldValue.Len() == 0 {
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continue
}
}
if col.SQLType.IsText() {
bytes, err := json.Marshal(fieldValue.Interface())
if err != nil {
engine.logger.Error(err)
continue
}
val = string(bytes)
} else if col.SQLType.IsBlob() {
var bytes []byte
var err error
if fieldType.Kind() == reflect.Slice &&
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fieldType.Elem().Kind() == reflect.Uint8 {
if fieldValue.Len() > 0 {
val = fieldValue.Bytes()
} else {
continue
}
} else if fieldType.Kind() == reflect.Array &&
fieldType.Elem().Kind() == reflect.Uint8 {
val = fieldValue.Slice(0, 0).Interface()
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} else {
bytes, err = json.Marshal(fieldValue.Interface())
if err != nil {
engine.logger.Error(err)
continue
}
val = bytes
}
} else {
continue
}
default:
val = fieldValue.Interface()
}
APPEND:
args = append(args, val)
if col.IsPrimaryKey && engine.dialect.DBType() == "ql" {
continue
}
colNames = append(colNames, fmt.Sprintf("%v = ?", engine.Quote(col.Name)))
}
return colNames, args
}
func (statement *Statement) needTableName() bool {
return len(statement.JoinStr) > 0
}
func (statement *Statement) colName(col *core.Column, tableName string) string {
if statement.needTableName() {
var nm = tableName
if len(statement.TableAlias) > 0 {
nm = statement.TableAlias
}
return statement.Engine.Quote(nm) + "." + statement.Engine.Quote(col.Name)
}
return statement.Engine.Quote(col.Name)
}
// TableName return current tableName
func (statement *Statement) TableName() string {
if statement.AltTableName != "" {
return statement.AltTableName
}
return statement.tableName
}
// ID generate "where id = ? " statement or for composite key "where key1 = ? and key2 = ?"
func (statement *Statement) ID(id interface{}) *Statement {
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idValue := reflect.ValueOf(id)
idType := reflect.TypeOf(idValue.Interface())
switch idType {
case ptrPkType:
if pkPtr, ok := (id).(*core.PK); ok {
statement.idParam = pkPtr
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return statement
}
case pkType:
if pk, ok := (id).(core.PK); ok {
statement.idParam = &pk
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return statement
}
}
switch idType.Kind() {
case reflect.String:
statement.idParam = &core.PK{idValue.Convert(reflect.TypeOf("")).Interface()}
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return statement
}
statement.idParam = &core.PK{id}
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return statement
}
// Incr Generate "Update ... Set column = column + arg" statement
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func (statement *Statement) Incr(column string, arg ...interface{}) *Statement {
k := strings.ToLower(column)
if len(arg) > 0 {
statement.incrColumns[k] = incrParam{column, arg[0]}
} else {
statement.incrColumns[k] = incrParam{column, 1}
}
return statement
}
// Decr Generate "Update ... Set column = column - arg" statement
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func (statement *Statement) Decr(column string, arg ...interface{}) *Statement {
k := strings.ToLower(column)
if len(arg) > 0 {
statement.decrColumns[k] = decrParam{column, arg[0]}
} else {
statement.decrColumns[k] = decrParam{column, 1}
}
return statement
}
// SetExpr Generate "Update ... Set column = {expression}" statement
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func (statement *Statement) SetExpr(column string, expression string) *Statement {
k := strings.ToLower(column)
statement.exprColumns[k] = exprParam{column, expression}
return statement
}
// Generate "Update ... Set column = column + arg" statement
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func (statement *Statement) getInc() map[string]incrParam {
return statement.incrColumns
}
// Generate "Update ... Set column = column - arg" statement
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func (statement *Statement) getDec() map[string]decrParam {
return statement.decrColumns
}
// Generate "Update ... Set column = {expression}" statement
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func (statement *Statement) getExpr() map[string]exprParam {
return statement.exprColumns
}
func (statement *Statement) col2NewColsWithQuote(columns ...string) []string {
newColumns := make([]string, 0)
for _, col := range columns {
col = strings.Replace(col, "`", "", -1)
col = strings.Replace(col, statement.Engine.QuoteStr(), "", -1)
ccols := strings.Split(col, ",")
for _, c := range ccols {
fields := strings.Split(strings.TrimSpace(c), ".")
if len(fields) == 1 {
newColumns = append(newColumns, statement.Engine.quote(fields[0]))
} else if len(fields) == 2 {
newColumns = append(newColumns, statement.Engine.quote(fields[0])+"."+
statement.Engine.quote(fields[1]))
} else {
panic(errors.New("unwanted colnames"))
}
}
}
return newColumns
}
func (statement *Statement) colmap2NewColsWithQuote() []string {
newColumns := make([]string, 0, len(statement.columnMap))
for col := range statement.columnMap {
fields := strings.Split(strings.TrimSpace(col), ".")
if len(fields) == 1 {
newColumns = append(newColumns, statement.Engine.quote(fields[0]))
} else if len(fields) == 2 {
newColumns = append(newColumns, statement.Engine.quote(fields[0])+"."+
statement.Engine.quote(fields[1]))
} else {
panic(errors.New("unwanted colnames"))
}
}
return newColumns
}
// Distinct generates "DISTINCT col1, col2 " statement
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func (statement *Statement) Distinct(columns ...string) *Statement {
statement.IsDistinct = true
statement.Cols(columns...)
return statement
}
// ForUpdate generates "SELECT ... FOR UPDATE" statement
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func (statement *Statement) ForUpdate() *Statement {
statement.IsForUpdate = true
return statement
}
// Select replace select
func (statement *Statement) Select(str string) *Statement {
statement.selectStr = str
return statement
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}
// Cols generate "col1, col2" statement
func (statement *Statement) Cols(columns ...string) *Statement {
cols := col2NewCols(columns...)
for _, nc := range cols {
statement.columnMap[strings.ToLower(nc)] = true
}
newColumns := statement.colmap2NewColsWithQuote()
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statement.ColumnStr = strings.Join(newColumns, ", ")
statement.ColumnStr = strings.Replace(statement.ColumnStr, statement.Engine.quote("*"), "*", -1)
return statement
}
// AllCols update use only: update all columns
func (statement *Statement) AllCols() *Statement {
statement.useAllCols = true
return statement
}
// MustCols update use only: must update columns
func (statement *Statement) MustCols(columns ...string) *Statement {
newColumns := col2NewCols(columns...)
for _, nc := range newColumns {
statement.mustColumnMap[strings.ToLower(nc)] = true
}
return statement
}
// UseBool indicates that use bool fields as update contents and query contiditions
func (statement *Statement) UseBool(columns ...string) *Statement {
if len(columns) > 0 {
statement.MustCols(columns...)
} else {
statement.allUseBool = true
}
return statement
}
// Omit do not use the columns
func (statement *Statement) Omit(columns ...string) {
newColumns := col2NewCols(columns...)
for _, nc := range newColumns {
statement.columnMap[strings.ToLower(nc)] = false
}
statement.OmitStr = statement.Engine.Quote(strings.Join(newColumns, statement.Engine.Quote(", ")))
}
// Nullable Update use only: update columns to null when value is nullable and zero-value
func (statement *Statement) Nullable(columns ...string) {
newColumns := col2NewCols(columns...)
for _, nc := range newColumns {
statement.nullableMap[strings.ToLower(nc)] = true
}
}
// Top generate LIMIT limit statement
func (statement *Statement) Top(limit int) *Statement {
statement.Limit(limit)
return statement
}
// Limit generate LIMIT start, limit statement
func (statement *Statement) Limit(limit int, start ...int) *Statement {
statement.LimitN = limit
if len(start) > 0 {
statement.Start = start[0]
}
return statement
}
// OrderBy generate "Order By order" statement
func (statement *Statement) OrderBy(order string) *Statement {
if len(statement.OrderStr) > 0 {
statement.OrderStr += ", "
}
statement.OrderStr += order
return statement
}
// Desc generate `ORDER BY xx DESC`
func (statement *Statement) Desc(colNames ...string) *Statement {
var buf bytes.Buffer
fmt.Fprintf(&buf, statement.OrderStr)
if len(statement.OrderStr) > 0 {
fmt.Fprint(&buf, ", ")
}
newColNames := statement.col2NewColsWithQuote(colNames...)
fmt.Fprintf(&buf, "%v DESC", strings.Join(newColNames, " DESC, "))
statement.OrderStr = buf.String()
return statement
}
// Asc provide asc order by query condition, the input parameters are columns.
func (statement *Statement) Asc(colNames ...string) *Statement {
var buf bytes.Buffer
fmt.Fprintf(&buf, statement.OrderStr)
if len(statement.OrderStr) > 0 {
fmt.Fprint(&buf, ", ")
}
newColNames := statement.col2NewColsWithQuote(colNames...)
fmt.Fprintf(&buf, "%v ASC", strings.Join(newColNames, " ASC, "))
statement.OrderStr = buf.String()
return statement
}
// Join The joinOP should be one of INNER, LEFT OUTER, CROSS etc - this will be prepended to JOIN
func (statement *Statement) Join(joinOP string, tablename interface{}, condition string, args ...interface{}) *Statement {
var buf bytes.Buffer
if len(statement.JoinStr) > 0 {
fmt.Fprintf(&buf, "%v %v JOIN ", statement.JoinStr, joinOP)
} else {
fmt.Fprintf(&buf, "%v JOIN ", joinOP)
}
switch tablename.(type) {
case []string:
t := tablename.([]string)
if len(t) > 1 {
fmt.Fprintf(&buf, "%v AS %v", statement.Engine.Quote(t[0]), statement.Engine.Quote(t[1]))
} else if len(t) == 1 {
fmt.Fprintf(&buf, statement.Engine.Quote(t[0]))
}
case []interface{}:
t := tablename.([]interface{})
l := len(t)
var table string
if l > 0 {
f := t[0]
v := rValue(f)
t := v.Type()
if t.Kind() == reflect.String {
table = f.(string)
} else if t.Kind() == reflect.Struct {
table = statement.Engine.tbName(v)
}
}
if l > 1 {
fmt.Fprintf(&buf, "%v AS %v", statement.Engine.Quote(table),
statement.Engine.Quote(fmt.Sprintf("%v", t[1])))
} else if l == 1 {
fmt.Fprintf(&buf, statement.Engine.Quote(table))
}
default:
fmt.Fprintf(&buf, statement.Engine.Quote(fmt.Sprintf("%v", tablename)))
}
fmt.Fprintf(&buf, " ON %v", condition)
statement.JoinStr = buf.String()
statement.joinArgs = append(statement.joinArgs, args...)
return statement
}
// GroupBy generate "Group By keys" statement
func (statement *Statement) GroupBy(keys string) *Statement {
statement.GroupByStr = keys
return statement
}
// Having generate "Having conditions" statement
func (statement *Statement) Having(conditions string) *Statement {
statement.HavingStr = fmt.Sprintf("HAVING %v", conditions)
return statement
}
// Unscoped always disable struct tag "deleted"
func (statement *Statement) Unscoped() *Statement {
statement.unscoped = true
return statement
}
func (statement *Statement) genColumnStr() string {
var buf bytes.Buffer
if statement.RefTable == nil {
return ""
}
columns := statement.RefTable.Columns()
for _, col := range columns {
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if statement.OmitStr != "" {
if _, ok := getFlagForColumn(statement.columnMap, col); ok {
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continue
}
}
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if col.MapType == core.ONLYTODB {
continue
}
if buf.Len() != 0 {
buf.WriteString(", ")
}
if col.IsPrimaryKey && statement.Engine.Dialect().DBType() == "ql" {
buf.WriteString("id() AS ")
}
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if statement.JoinStr != "" {
if statement.TableAlias != "" {
buf.WriteString(statement.TableAlias)
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} else {
buf.WriteString(statement.TableName())
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}
buf.WriteString(".")
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}
statement.Engine.QuoteTo(&buf, col.Name)
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}
return buf.String()
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}
func (statement *Statement) genCreateTableSQL() string {
return statement.Engine.dialect.CreateTableSql(statement.RefTable, statement.TableName(),
statement.StoreEngine, statement.Charset)
}
func (statement *Statement) genIndexSQL() []string {
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var sqls []string
tbName := statement.TableName()
quote := statement.Engine.Quote
for idxName, index := range statement.RefTable.Indexes {
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if index.Type == core.IndexType {
sql := fmt.Sprintf("CREATE INDEX %v ON %v (%v);", quote(indexName(tbName, idxName)),
quote(tbName), quote(strings.Join(index.Cols, quote(","))))
sqls = append(sqls, sql)
}
}
return sqls
}
func uniqueName(tableName, uqeName string) string {
return fmt.Sprintf("UQE_%v_%v", tableName, uqeName)
}
func (statement *Statement) genUniqueSQL() []string {
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var sqls []string
tbName := statement.TableName()
for _, index := range statement.RefTable.Indexes {
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if index.Type == core.UniqueType {
sql := statement.Engine.dialect.CreateIndexSql(tbName, index)
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sqls = append(sqls, sql)
}
}
return sqls
}
func (statement *Statement) genDelIndexSQL() []string {
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var sqls []string
tbName := statement.TableName()
for idxName, index := range statement.RefTable.Indexes {
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var rIdxName string
if index.Type == core.UniqueType {
rIdxName = uniqueName(tbName, idxName)
} else if index.Type == core.IndexType {
rIdxName = indexName(tbName, idxName)
}
sql := fmt.Sprintf("DROP INDEX %v", statement.Engine.Quote(rIdxName))
if statement.Engine.dialect.IndexOnTable() {
sql += fmt.Sprintf(" ON %v", statement.Engine.Quote(statement.TableName()))
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}
sqls = append(sqls, sql)
}
return sqls
}
func (statement *Statement) genAddColumnStr(col *core.Column) (string, []interface{}) {
quote := statement.Engine.Quote
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sql := fmt.Sprintf("ALTER TABLE %v ADD %v", quote(statement.TableName()),
col.String(statement.Engine.dialect))
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if statement.Engine.dialect.DBType() == core.MYSQL && len(col.Comment) > 0 {
sql += " COMMENT '" + col.Comment + "'"
}
sql += ";"
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return sql, []interface{}{}
}
func (statement *Statement) buildConds(table *core.Table, bean interface{}, includeVersion bool, includeUpdated bool, includeNil bool, includeAutoIncr bool, addedTableName bool) (builder.Cond, error) {
return statement.Engine.buildConds(table, bean, includeVersion, includeUpdated, includeNil, includeAutoIncr, statement.allUseBool, statement.useAllCols,
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statement.unscoped, statement.mustColumnMap, statement.TableName(), statement.TableAlias, addedTableName)
}
func (statement *Statement) mergeConds(bean interface{}) error {
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if !statement.noAutoCondition {
var addedTableName = (len(statement.JoinStr) > 0)
autoCond, err := statement.buildConds(statement.RefTable, bean, true, true, false, true, addedTableName)
if err != nil {
return err
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}
statement.cond = statement.cond.And(autoCond)
}
if err := statement.processIDParam(); err != nil {
return err
}
return nil
}
func (statement *Statement) genConds(bean interface{}) (string, []interface{}, error) {
if err := statement.mergeConds(bean); err != nil {
return "", nil, err
}
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return builder.ToSQL(statement.cond)
}
func (statement *Statement) genGetSQL(bean interface{}) (string, []interface{}, error) {
v := rValue(bean)
isStruct := v.Kind() == reflect.Struct
if isStruct {
statement.setRefValue(v)
}
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var columnStr = statement.ColumnStr
if len(statement.selectStr) > 0 {
columnStr = statement.selectStr
} else {
// TODO: always generate column names, not use * even if join
if len(statement.JoinStr) == 0 {
if len(columnStr) == 0 {
if len(statement.GroupByStr) > 0 {
columnStr = statement.Engine.Quote(strings.Replace(statement.GroupByStr, ",", statement.Engine.Quote(","), -1))
} else {
columnStr = statement.genColumnStr()
}
}
} else {
if len(columnStr) == 0 {
if len(statement.GroupByStr) > 0 {
columnStr = statement.Engine.Quote(strings.Replace(statement.GroupByStr, ",", statement.Engine.Quote(","), -1))
}
}
}
}
if len(columnStr) == 0 {
columnStr = "*"
}
if isStruct {
if err := statement.mergeConds(bean); err != nil {
return "", nil, err
}
}
condSQL, condArgs, err := builder.ToSQL(statement.cond)
if err != nil {
return "", nil, err
}
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sqlStr, err := statement.genSelectSQL(columnStr, condSQL)
if err != nil {
return "", nil, err
}
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return sqlStr, append(statement.joinArgs, condArgs...), nil
}
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func (statement *Statement) genCountSQL(beans ...interface{}) (string, []interface{}, error) {
var condSQL string
var condArgs []interface{}
var err error
if len(beans) > 0 {
statement.setRefValue(rValue(beans[0]))
condSQL, condArgs, err = statement.genConds(beans[0])
} else {
condSQL, condArgs, err = builder.ToSQL(statement.cond)
}
if err != nil {
return "", nil, err
}
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var selectSQL = statement.selectStr
if len(selectSQL) <= 0 {
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if statement.IsDistinct {
selectSQL = fmt.Sprintf("count(DISTINCT %s)", statement.ColumnStr)
} else {
selectSQL = "count(*)"
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}
}
sqlStr, err := statement.genSelectSQL(selectSQL, condSQL)
if err != nil {
return "", nil, err
}
return sqlStr, append(statement.joinArgs, condArgs...), nil
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}
func (statement *Statement) genSumSQL(bean interface{}, columns ...string) (string, []interface{}, error) {
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statement.setRefValue(rValue(bean))
var sumStrs = make([]string, 0, len(columns))
for _, colName := range columns {
if !strings.Contains(colName, " ") && !strings.Contains(colName, "(") {
colName = statement.Engine.Quote(colName)
}
sumStrs = append(sumStrs, fmt.Sprintf("COALESCE(sum(%s),0)", colName))
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}
sumSelect := strings.Join(sumStrs, ", ")
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condSQL, condArgs, err := statement.genConds(bean)
if err != nil {
return "", nil, err
}
sqlStr, err := statement.genSelectSQL(sumSelect, condSQL)
if err != nil {
return "", nil, err
}
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return sqlStr, append(statement.joinArgs, condArgs...), nil
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}
func (statement *Statement) genSelectSQL(columnStr, condSQL string) (a string, err error) {
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var distinct string
if statement.IsDistinct && !strings.HasPrefix(columnStr, "count") {
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distinct = "DISTINCT "
}
var dialect = statement.Engine.Dialect()
var quote = statement.Engine.Quote
var top string
var mssqlCondi string
if err := statement.processIDParam(); err != nil {
return "", err
}
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var buf bytes.Buffer
if len(condSQL) > 0 {
fmt.Fprintf(&buf, " WHERE %v", condSQL)
}
var whereStr = buf.String()
var fromStr = " FROM "
if dialect.DBType() == core.MSSQL && strings.Contains(statement.TableName(), "..") {
fromStr += statement.TableName()
} else {
fromStr += quote(statement.TableName())
}
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if statement.TableAlias != "" {
if dialect.DBType() == core.ORACLE {
fromStr += " " + quote(statement.TableAlias)
} else {
fromStr += " AS " + quote(statement.TableAlias)
}
}
if statement.JoinStr != "" {
fromStr = fmt.Sprintf("%v %v", fromStr, statement.JoinStr)
}
if dialect.DBType() == core.MSSQL {
if statement.LimitN > 0 {
top = fmt.Sprintf(" TOP %d ", statement.LimitN)
}
if statement.Start > 0 {
var column string
if len(statement.RefTable.PKColumns()) == 0 {
for _, index := range statement.RefTable.Indexes {
if len(index.Cols) == 1 {
column = index.Cols[0]
break
}
}
if len(column) == 0 {
column = statement.RefTable.ColumnsSeq()[0]
}
} else {
column = statement.RefTable.PKColumns()[0].Name
}
if statement.needTableName() {
if len(statement.TableAlias) > 0 {
column = statement.TableAlias + "." + column
} else {
column = statement.TableName() + "." + column
}
}
var orderStr string
if len(statement.OrderStr) > 0 {
orderStr = " ORDER BY " + statement.OrderStr
}
var groupStr string
if len(statement.GroupByStr) > 0 {
groupStr = " GROUP BY " + statement.GroupByStr
}
mssqlCondi = fmt.Sprintf("(%s NOT IN (SELECT TOP %d %s%s%s%s%s))",
column, statement.Start, column, fromStr, whereStr, orderStr, groupStr)
}
}
// !nashtsai! REVIEW Sprintf is considered slowest mean of string concatnation, better to work with builder pattern
a = fmt.Sprintf("SELECT %v%v%v%v%v", distinct, top, columnStr, fromStr, whereStr)
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if len(mssqlCondi) > 0 {
if len(whereStr) > 0 {
a += " AND " + mssqlCondi
} else {
a += " WHERE " + mssqlCondi
}
}
if statement.GroupByStr != "" {
a = fmt.Sprintf("%v GROUP BY %v", a, statement.GroupByStr)
}
if statement.HavingStr != "" {
a = fmt.Sprintf("%v %v", a, statement.HavingStr)
}
if statement.OrderStr != "" {
a = fmt.Sprintf("%v ORDER BY %v", a, statement.OrderStr)
}
if dialect.DBType() != core.MSSQL && dialect.DBType() != core.ORACLE {
if statement.Start > 0 {
a = fmt.Sprintf("%v LIMIT %v OFFSET %v", a, statement.LimitN, statement.Start)
} else if statement.LimitN > 0 {
a = fmt.Sprintf("%v LIMIT %v", a, statement.LimitN)
}
} else if dialect.DBType() == core.ORACLE {
if statement.Start != 0 || statement.LimitN != 0 {
a = fmt.Sprintf("SELECT %v FROM (SELECT %v,ROWNUM RN FROM (%v) at WHERE ROWNUM <= %d) aat WHERE RN > %d", columnStr, columnStr, a, statement.Start+statement.LimitN, statement.Start)
}
}
if statement.IsForUpdate {
a = dialect.ForUpdateSql(a)
}
return
}
func (statement *Statement) processIDParam() error {
if statement.idParam == nil {
return nil
}
if len(statement.RefTable.PrimaryKeys) != len(*statement.idParam) {
return fmt.Errorf("ID condition is error, expect %d primarykeys, there are %d",
len(statement.RefTable.PrimaryKeys),
len(*statement.idParam),
)
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}
for i, col := range statement.RefTable.PKColumns() {
var colName = statement.colName(col, statement.TableName())
statement.cond = statement.cond.And(builder.Eq{colName: (*(statement.idParam))[i]})
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}
return nil
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}
func (statement *Statement) joinColumns(cols []*core.Column, includeTableName bool) string {
var colnames = make([]string, len(cols))
for i, col := range cols {
if includeTableName {
colnames[i] = statement.Engine.Quote(statement.TableName()) +
"." + statement.Engine.Quote(col.Name)
} else {
colnames[i] = statement.Engine.Quote(col.Name)
}
}
return strings.Join(colnames, ", ")
}
func (statement *Statement) convertIDSQL(sqlStr string) string {
if statement.RefTable != nil {
cols := statement.RefTable.PKColumns()
if len(cols) == 0 {
return ""
}
colstrs := statement.joinColumns(cols, false)
sqls := splitNNoCase(sqlStr, " from ", 2)
if len(sqls) != 2 {
return ""
}
var top string
if statement.LimitN > 0 && statement.Engine.dialect.DBType() == core.MSSQL {
top = fmt.Sprintf("TOP %d ", statement.LimitN)
}
newsql := fmt.Sprintf("SELECT %s%s FROM %v", top, colstrs, sqls[1])
return newsql
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}
return ""
}
func (statement *Statement) convertUpdateSQL(sqlStr string) (string, string) {
if statement.RefTable == nil || len(statement.RefTable.PrimaryKeys) != 1 {
return "", ""
}
colstrs := statement.joinColumns(statement.RefTable.PKColumns(), true)
sqls := splitNNoCase(sqlStr, "where", 2)
if len(sqls) != 2 {
if len(sqls) == 1 {
return sqls[0], fmt.Sprintf("SELECT %v FROM %v",
colstrs, statement.Engine.Quote(statement.TableName()))
}
return "", ""
}
var whereStr = sqls[1]
//TODO: for postgres only, if any other database?
var paraStr string
if statement.Engine.dialect.DBType() == core.POSTGRES {
paraStr = "$"
} else if statement.Engine.dialect.DBType() == core.MSSQL {
paraStr = ":"
}
if paraStr != "" {
if strings.Contains(sqls[1], paraStr) {
dollers := strings.Split(sqls[1], paraStr)
whereStr = dollers[0]
for i, c := range dollers[1:] {
ccs := strings.SplitN(c, " ", 2)
whereStr += fmt.Sprintf(paraStr+"%v %v", i+1, ccs[1])
}
}
}
return sqls[0], fmt.Sprintf("SELECT %v FROM %v WHERE %v",
colstrs, statement.Engine.Quote(statement.TableName()),
whereStr)
}