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// 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
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
}
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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
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 ( )
}
// 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
}
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// 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
}
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// Where add Where statement
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func ( statement * Statement ) Where ( query interface { } , args ... interface { } ) * Statement {
return statement . And ( query , args ... )
}
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// 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 )
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
}
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// 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 )
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
}
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// In generate "Where column IN (?) " statement
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func ( statement * Statement ) In ( column string , args ... interface { } ) * Statement {
if len ( args ) == 0 {
return statement
}
in := builder . In ( column , args ... )
statement . cond = statement . cond . And ( in )
return statement
}
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// NotIn generate "Where column NOT IN (?) " statement
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func ( statement * Statement ) NotIn ( column string , args ... interface { } ) * Statement {
if len ( args ) == 0 {
return statement
}
in := builder . NotIn ( column , args ... )
statement . cond = statement . cond . And ( in )
return statement
}
func ( statement * Statement ) setRefValue ( v reflect . Value ) {
statement . RefTable = statement . Engine . autoMapType ( reflect . Indirect ( v ) )
statement . tableName = statement . Engine . tbName ( v )
}
// 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 {
statement . RefTable = statement . Engine . autoMapType ( v )
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
}
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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 ( ) )
requiredField := useAllCols
includeNil := useAllCols
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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
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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 . FormatTime ( col . SQLType . Name , t )
} 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 fieldValue . IsNil ( ) || ! fieldValue . IsValid ( ) || fieldValue . Len ( ) == 0 {
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 . Array || fieldType . Kind ( ) == reflect . Slice ) &&
fieldType . Elem ( ) . Kind ( ) == reflect . Uint8 {
if fieldValue . Len ( ) > 0 {
val = fieldValue . Bytes ( )
} else {
continue
}
} 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 )
}
func buildConds ( engine * Engine , table * core . Table , bean interface { } ,
includeVersion bool , includeUpdated bool , includeNil bool ,
includeAutoIncr bool , allUseBool bool , useAllCols bool , unscoped bool ,
mustColumnMap map [ string ] bool , tableName , aliasName string , addedTableName bool ) ( builder . Cond , error ) {
var conds [ ] builder . Cond
for _ , col := range table . Columns ( ) {
if ! includeVersion && col . IsVersion {
continue
}
if ! includeUpdated && col . IsUpdated {
continue
}
if ! includeAutoIncr && col . IsAutoIncrement {
continue
}
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if engine . dialect . DBType ( ) == core . MSSQL && ( col . SQLType . Name == core . Text || col . SQLType . IsBlob ( ) || col . SQLType . Name == core . TimeStampz ) {
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continue
}
if col . SQLType . IsJson ( ) {
continue
}
var colName string
if addedTableName {
var nm = tableName
if len ( aliasName ) > 0 {
nm = aliasName
}
colName = engine . Quote ( nm ) + "." + engine . Quote ( col . Name )
} else {
colName = engine . Quote ( col . Name )
}
fieldValuePtr , err := col . ValueOf ( bean )
if err != nil {
engine . logger . Error ( err )
continue
}
if col . IsDeleted && ! unscoped { // tag "deleted" is enabled
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if engine . dialect . DBType ( ) == core . MSSQL {
conds = append ( conds , builder . IsNull { colName } )
} else {
conds = append ( conds , builder . IsNull { colName } . Or ( builder . Eq { colName : "0001-01-01 00:00:00" } ) )
}
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}
fieldValue := * fieldValuePtr
if fieldValue . Interface ( ) == nil {
continue
}
fieldType := reflect . TypeOf ( fieldValue . Interface ( ) )
requiredField := useAllCols
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if b , ok := getFlagForColumn ( mustColumnMap , col ) ; ok {
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if b {
requiredField = true
} else {
continue
}
}
if fieldType . Kind ( ) == reflect . Ptr {
if fieldValue . IsNil ( ) {
if includeNil {
conds = append ( conds , builder . Eq { colName : nil } )
}
continue
} else if ! fieldValue . IsValid ( ) {
continue
} else {
// dereference ptr type to instance type
fieldValue = fieldValue . Elem ( )
fieldType = reflect . TypeOf ( fieldValue . Interface ( ) )
requiredField = true
}
}
var val interface { }
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 . FormatTime ( col . SQLType . Name , t )
} else if _ , ok := reflect . New ( fieldType ) . Interface ( ) . ( core . Conversion ) ; ok {
continue
} else if valNul , ok := fieldValue . Interface ( ) . ( driver . Valuer ) ; ok {
val , _ = valNul . Value ( )
if val == nil {
continue
}
} else {
if col . SQLType . IsJson ( ) {
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
bytes , err = json . Marshal ( fieldValue . Interface ( ) )
if err != nil {
engine . logger . Error ( err )
continue
}
val = bytes
}
} else {
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.Int() != 0 {
if pkField . IsValid ( ) && ! isZero ( pkField . Interface ( ) ) {
val = pkField . Interface ( )
} else {
continue
}
} else {
//TODO: how to handler?
panic ( fmt . Sprintln ( "not supported" , fieldValue . Interface ( ) , "as" , table . PrimaryKeys ) )
}
} else {
val = fieldValue . Interface ( )
}
}
}
case reflect . Array , reflect . Slice , reflect . Map :
if fieldValue == reflect . Zero ( fieldType ) {
continue
}
if fieldValue . IsNil ( ) || ! fieldValue . IsValid ( ) || fieldValue . Len ( ) == 0 {
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 . Array || fieldType . Kind ( ) == reflect . Slice ) &&
fieldType . Elem ( ) . Kind ( ) == reflect . Uint8 {
if fieldValue . Len ( ) > 0 {
val = fieldValue . Bytes ( )
} else {
continue
}
} else {
bytes , err = json . Marshal ( fieldValue . Interface ( ) )
if err != nil {
engine . logger . Error ( err )
continue
}
val = bytes
}
} else {
continue
}
default :
val = fieldValue . Interface ( )
}
conds = append ( conds , builder . Eq { colName : val } )
}
return builder . And ( conds ... ) , nil
}
// TableName return current tableName
func ( statement * Statement ) TableName ( ) string {
if statement . AltTableName != "" {
return statement . AltTableName
}
return statement . tableName
}
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// Id generate "where id = ? " statement or for composite key "where key1 = ? and key2 = ?"
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//
// Deprecated: use ID instead
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func ( statement * Statement ) Id ( id interface { } ) * Statement {
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return statement . ID ( id )
}
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// ID generate "where id = ? " statement or for composite key "where key1 = ? and key2 = ?"
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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
return statement
}
case pkType :
if pk , ok := ( id ) . ( core . PK ) ; ok {
statement . IdParam = & pk
return statement
}
}
switch idType . Kind ( ) {
case reflect . String :
statement . IdParam = & core . PK { idValue . Convert ( reflect . TypeOf ( "" ) ) . Interface ( ) }
return statement
}
statement . IdParam = & core . PK { id }
return statement
}
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// 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
}
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// 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
}
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// 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
}
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// Generate "Update ... Set column = column + arg" statement
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func ( statement * Statement ) getInc ( ) map [ string ] incrParam {
return statement . incrColumns
}
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// Generate "Update ... Set column = column - arg" statement
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func ( statement * Statement ) getDec ( ) map [ string ] decrParam {
return statement . decrColumns
}
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// 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
}
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// 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
}
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// ForUpdate generates "SELECT ... FOR UPDATE" statement
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func ( statement * Statement ) ForUpdate ( ) * Statement {
statement . IsForUpdate = true
return statement
}
// Select replace select
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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 . col2NewColsWithQuote ( columns ... )
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 {
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var buf bytes . Buffer
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if statement . RefTable == nil {
return ""
}
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columns := statement . RefTable . Columns ( )
for _ , col := range columns {
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if statement . OmitStr != "" {
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if _ , ok := getFlagForColumn ( statement . columnMap , col ) ; ok {
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continue
}
}
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if col . MapType == core . ONLYTODB {
continue
}
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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 != "" {
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buf . WriteString ( statement . TableAlias )
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} else {
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buf . WriteString ( statement . TableName ( ) )
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}
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buf . WriteString ( "." )
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}
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statement . Engine . QuoteTo ( & buf , col . Name )
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}
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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 )
}
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func ( statement * Statement ) genIndexSQL ( ) [ ] string {
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var sqls [ ] string
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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 )
}
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func ( statement * Statement ) genUniqueSQL ( ) [ ] string {
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var sqls [ ] string
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tbName := statement . TableName ( )
for _ , index := range statement . RefTable . Indexes {
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if index . Type == core . UniqueType {
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sql := statement . Engine . dialect . CreateIndexSql ( tbName , index )
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sqls = append ( sqls , sql )
}
}
return sqls
}
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func ( statement * Statement ) genDelIndexSQL ( ) [ ] string {
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var sqls [ ] string
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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 )
}
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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
}
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func ( statement * Statement ) genAddColumnStr ( col * core . Column ) ( string , [ ] interface { } ) {
quote := statement . Engine . Quote
sql := fmt . Sprintf ( "ALTER TABLE %v ADD %v;" , quote ( statement . TableName ( ) ) ,
col . String ( statement . Engine . dialect ) )
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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 buildConds ( statement . Engine , table , bean , includeVersion , includeUpdated , includeNil , includeAutoIncr , statement . allUseBool , statement . useAllCols ,
statement . unscoped , statement . mustColumnMap , statement . TableName ( ) , statement . TableAlias , addedTableName )
}
func ( statement * Statement ) genConds ( bean interface { } ) ( string , [ ] interface { } , error ) {
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 "" , nil , err
}
statement . cond = statement . cond . And ( autoCond )
}
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statement . processIDParam ( )
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return builder . ToSQL ( statement . cond )
}
func ( statement * Statement ) genGetSQL ( bean interface { } ) ( string , [ ] interface { } ) {
statement . setRefValue ( rValue ( bean ) )
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 ) )
} else {
columnStr = "*"
}
}
}
}
condSQL , condArgs , _ := statement . genConds ( bean )
return statement . genSelectSQL ( columnStr , condSQL ) , append ( statement . joinArgs , condArgs ... )
}
func ( statement * Statement ) genCountSQL ( bean interface { } ) ( string , [ ] interface { } ) {
statement . setRefValue ( rValue ( bean ) )
condSQL , condArgs , _ := statement . genConds ( bean )
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var selectSQL = statement . selectStr
if len ( selectSQL ) <= 0 {
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if statement . IsDistinct {
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selectSQL = fmt . Sprintf ( "count(DISTINCT %s)" , statement . ColumnStr )
} else {
selectSQL = "count(*)"
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}
}
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return statement . genSelectSQL ( selectSQL , condSQL ) , append ( statement . joinArgs , condArgs ... )
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}
func ( statement * Statement ) genSumSQL ( bean interface { } , columns ... string ) ( string , [ ] interface { } ) {
statement . setRefValue ( rValue ( bean ) )
var sumStrs = make ( [ ] string , 0 , len ( columns ) )
for _ , colName := range columns {
sumStrs = append ( sumStrs , fmt . Sprintf ( "COALESCE(sum(%s),0)" , colName ) )
}
condSQL , condArgs , _ := statement . genConds ( bean )
return statement . genSelectSQL ( strings . Join ( sumStrs , ", " ) , condSQL ) , append ( statement . joinArgs , condArgs ... )
}
func ( statement * Statement ) genSelectSQL ( columnStr , condSQL string ) ( a string ) {
var distinct string
if statement . IsDistinct {
distinct = "DISTINCT "
}
var dialect = statement . Engine . Dialect ( )
var quote = statement . Engine . Quote
var top string
var mssqlCondi string
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statement . processIDParam ( )
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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 " + quote ( statement . TableName ( ) )
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" , top , distinct , columnStr , fromStr , whereStr )
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
}
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func ( statement * Statement ) processIDParam ( ) {
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if statement . IdParam == nil {
return
}
for i , col := range statement . RefTable . PKColumns ( ) {
var colName = statement . colName ( col , statement . TableName ( ) )
if i < len ( * ( statement . IdParam ) ) {
statement . cond = statement . cond . And ( builder . Eq { colName : ( * ( statement . IdParam ) ) [ i ] } )
} else {
statement . cond = statement . cond . And ( builder . Eq { colName : "" } )
}
}
}
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 ""
}
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var top string
if statement . LimitN > 0 && statement . Engine . dialect . DBType ( ) == core . MSSQL {
top = fmt . Sprintf ( "TOP %d " , statement . LimitN )
}
return fmt . Sprintf ( "SELECT %s%s FROM %v" , top , colstrs , sqls [ 1 ] )
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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 )
}