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package gorm_test
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import (
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"database/sql"
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"database/sql/driver"
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"errors"
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"fmt"
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_ "github.com/go-sql-driver/mysql"
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"github.com/jinzhu/gorm"
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_ "github.com/lib/pq"
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_ "github.com/mattn/go-sqlite3"
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"os"
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"reflect"
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"strconv"
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"testing"
"time"
)
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type IgnoredEmbedStruct struct {
Name string
}
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type Num int64
func ( i * Num ) Scan ( src interface { } ) error {
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switch s := src . ( type ) {
case [ ] byte :
case int64 :
* i = Num ( s )
default :
return errors . New ( "Cannot scan NamedInt from " + reflect . ValueOf ( src ) . String ( ) )
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}
return nil
}
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type Company struct {
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Id int64
Name string
}
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type Role struct {
Name string
}
func ( role * Role ) Scan ( value interface { } ) error {
role . Name = string ( value . ( [ ] uint8 ) )
return nil
}
func ( role Role ) Value ( ) ( driver . Value , error ) {
return role . Name , nil
}
func ( role Role ) IsAdmin ( ) bool {
return role . Name == "admin"
}
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type User struct {
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Id int64 // Id: Primary key
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Age int64
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UserNum Num
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Name string ` sql:"size:255" `
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Birthday time . Time // Time
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CreatedAt time . Time // CreatedAt: Time of record is created, will be insert automatically
UpdatedAt time . Time // UpdatedAt: Time of record is updated, will be updated automatically
DeletedAt time . Time // DeletedAt: Time of record is deleted, refer Soft Delete for more
Emails [ ] Email // Embedded structs
IgnoredEmbedStruct IgnoredEmbedStruct ` sql:"-" `
BillingAddress Address // Embedded struct
BillingAddressId sql . NullInt64 // Embedded struct's foreign key
ShippingAddress Address // Embedded struct
ShippingAddressId int64 // Embedded struct's foreign key
When time . Time
CreditCard CreditCard
Latitude float64
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CompanyId int64
Company
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Role
PasswordHash [ ] byte
IgnoreMe int64 ` sql:"-" `
IgnoreStringSlice [ ] string ` sql:"-" `
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}
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type UserCompany struct {
Id int64
UserId int64
CompanyId int64
}
func ( t UserCompany ) TableName ( ) string {
return "user_companies"
}
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type CreditCard struct {
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Id int8
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Number string
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UserId sql . NullInt64
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CreatedAt time . Time
UpdatedAt time . Time
DeletedAt time . Time
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}
type Email struct {
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Id int16
UserId int
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Email string ` sql:"type:varchar(100); unique" `
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CreatedAt time . Time
UpdatedAt time . Time
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}
type Address struct {
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Id int
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Address1 string
Address2 string
Post string
CreatedAt time . Time
UpdatedAt time . Time
DeletedAt time . Time
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}
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type Product struct {
Id int64
Code string
Price int64
CreatedAt time . Time
UpdatedAt time . Time
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AfterFindCallTimes int64
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BeforeCreateCallTimes int64
AfterCreateCallTimes int64
BeforeUpdateCallTimes int64
AfterUpdateCallTimes int64
BeforeSaveCallTimes int64
AfterSaveCallTimes int64
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BeforeDeleteCallTimes int64
AfterDeleteCallTimes int64
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}
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type Animal struct {
Counter int64 ` primaryKey:"yes" `
Name string
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From string //test reserverd sql keyword as field name
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CreatedAt time . Time
UpdatedAt time . Time
}
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type Details struct {
Id int64
Bulk gorm . Hstore
}
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var (
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db gorm . DB
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t1 , t2 , t3 , t4 , t5 time . Time
)
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func init ( ) {
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var err error
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switch os . Getenv ( "GORM_DIALECT" ) {
case "mysql" :
// CREATE USER 'gorm'@'localhost' IDENTIFIED BY 'gorm';
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// CREATE DATABASE gorm;
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// GRANT ALL ON gorm.* TO 'gorm'@'localhost';
fmt . Println ( "testing mysql..." )
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db , err = gorm . Open ( "mysql" , "gorm:gorm@/gorm?charset=utf8&parseTime=True" )
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case "postgres" :
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fmt . Println ( "testing postgres..." )
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db , err = gorm . Open ( "postgres" , "user=gorm dbname=gorm sslmode=disable" )
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default :
fmt . Println ( "testing sqlite3..." )
db , err = gorm . Open ( "sqlite3" , "/tmp/gorm.db" )
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}
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// db.SetLogger(Logger{log.New(os.Stdout, "\r\n", 0)})
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// db.SetLogger(log.New(os.Stdout, "\r\n", 0))
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db . LogMode ( true )
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db . LogMode ( false )
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if err != nil {
panic ( fmt . Sprintf ( "No error should happen when connect database, but got %+v" , err ) )
}
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db . DB ( ) . SetMaxIdleConns ( 10 )
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if err := db . DropTable ( & User { } ) . Error ; err != nil {
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fmt . Printf ( "Got error when try to delete table users, %+v\n" , err )
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}
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db . Exec ( "drop table products;" )
db . Exec ( "drop table emails;" )
db . Exec ( "drop table addresses" )
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db . Exec ( "drop table credit_cards" )
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db . Exec ( "drop table roles" )
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db . Exec ( "drop table companies" )
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db . Exec ( "drop table animals" )
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db . Exec ( "drop table user_companies" )
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if err = db . CreateTable ( & Animal { } ) . Error ; err != nil {
panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . CreateTable ( & User { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
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}
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if err = db . CreateTable ( & Product { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . CreateTable ( Email { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . AutoMigrate ( Address { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . AutoMigrate ( & CreditCard { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . AutoMigrate ( Company { } ) . Error ; err != nil {
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panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . AutoMigrate ( Role { } ) . Error ; err != nil {
panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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if err = db . AutoMigrate ( UserCompany { } ) . Error ; err != nil {
panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
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var shortForm = "2006-01-02 15:04:05"
t1 , _ = time . Parse ( shortForm , "2000-10-27 12:02:40" )
t2 , _ = time . Parse ( shortForm , "2002-01-01 00:00:00" )
t3 , _ = time . Parse ( shortForm , "2005-01-01 00:00:00" )
t4 , _ = time . Parse ( shortForm , "2010-01-01 00:00:00" )
t5 , _ = time . Parse ( shortForm , "2020-01-01 00:00:00" )
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db . Save ( & User { Name : "1" , Age : 18 , Birthday : t1 , When : time . Now ( ) , UserNum : Num ( 111 ) } )
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db . Save ( & User { Name : "2" , Age : 20 , Birthday : t2 } )
db . Save ( & User { Name : "3" , Age : 22 , Birthday : t3 } )
db . Save ( & User { Name : "3" , Age : 24 , Birthday : t4 } )
db . Save ( & User { Name : "5" , Age : 26 , Birthday : t4 } )
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db . Save ( & Animal { Name : "First" , From : "hello" } )
db . Save ( & Animal { Name : "Amazing" , From : "nerdz" } )
db . Save ( & Animal { Name : "Horse" , From : "gorm" } )
db . Save ( & Animal { Name : "Last" , From : "epic" } )
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}
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func TestFirstAndLast ( t * testing . T ) {
var user1 , user2 , user3 , user4 User
db . First ( & user1 )
db . Order ( "id" ) . Find ( & user2 )
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db . Last ( & user3 )
db . Order ( "id desc" ) . Find ( & user4 )
if user1 . Id != user2 . Id || user3 . Id != user4 . Id {
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t . Errorf ( "First and Last should work correctly" )
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}
var users [ ] User
db . First ( & users )
if len ( users ) != 1 {
t . Errorf ( "Find first record as map" )
}
}
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func TestFirstAndLastWithJoins ( t * testing . T ) {
var user1 , user2 , user3 , user4 User
db . Joins ( "left join emails on emails.user_id = users.id" ) . First ( & user1 )
db . Order ( "id" ) . Find ( & user2 )
db . Joins ( "left join emails on emails.user_id = users.id" ) . Last ( & user3 )
db . Order ( "id desc" ) . Find ( & user4 )
if user1 . Id != user2 . Id || user3 . Id != user4 . Id {
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t . Errorf ( "First and Last should work correctly with Joins" )
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}
}
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func TestFirstAndLastForTableWithNoStdPrimaryKey ( t * testing . T ) {
var animal1 , animal2 , animal3 , animal4 Animal
db . First ( & animal1 )
db . Order ( "counter" ) . Find ( & animal2 )
db . Last ( & animal3 )
db . Order ( "counter desc" ) . Find ( & animal4 )
if animal1 . Counter != animal2 . Counter || animal3 . Counter != animal4 . Counter {
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t . Errorf ( "First and Last should work correctly" )
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}
var animals [ ] Animal
db . First ( & animals )
if len ( animals ) != 1 {
t . Errorf ( "Find first record as map" )
}
}
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func TestSaveCustomType ( t * testing . T ) {
var user , user1 User
db . First ( & user , "name = ?" , "1" )
if user . UserNum != Num ( 111 ) {
t . Errorf ( "UserNum should be saved correctly" )
}
user . UserNum = Num ( 222 )
db . Save ( & user )
db . First ( & user1 , "name = ?" , "1" )
if user1 . UserNum != Num ( 222 ) {
t . Errorf ( "UserNum should be updated correctly" )
}
}
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func TestPrecision ( t * testing . T ) {
f := 35.03554004971999
user := User { Name : "Precision" , Latitude : f }
db . Save ( & user )
if user . Latitude != f {
t . Errorf ( "Float64 should not be changed after save" )
}
var u User
db . First ( & u , "name = ?" , "Precision" )
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if u . Latitude != f {
t . Errorf ( "Float64 should not be changed after query" )
}
}
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func TestCreateAndUpdate ( t * testing . T ) {
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name , name2 , new_name := "update" , "update2" , "new_update"
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user := User { Name : name , Age : 1 , PasswordHash : [ ] byte { 'f' , 'a' , 'k' , '4' } }
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if ! db . NewRecord ( user ) || ! db . NewRecord ( & user ) {
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t . Error ( "User should be new record" )
}
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if count := db . Save ( & user ) . RowsAffected ; count != 1 {
t . Error ( "There should be one record be affected when create record" )
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}
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if user . Id == 0 {
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t . Errorf ( "Should have ID after create" )
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}
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if db . NewRecord ( user ) || db . NewRecord ( & user ) {
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t . Error ( "User should not new record after save" )
}
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var u User
db . First ( & u , user . Id )
if ! reflect . DeepEqual ( u . PasswordHash , [ ] byte { 'f' , 'a' , 'k' , '4' } ) {
t . Errorf ( "User's Password should be saved" )
}
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if count := db . Save ( & User { Name : name2 , Age : 1 } ) . RowsAffected ; count != 1 {
t . Error ( "There should be one record be affected when update a record" )
}
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user . Name = new_name
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db . Save ( & user )
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if db . Where ( "name = ?" , name ) . First ( & User { } ) . Error != gorm . RecordNotFound {
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t . Errorf ( "Should raise RecordNotFound error when looking with an outdated name" )
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}
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if db . Where ( "name = ?" , new_name ) . First ( & User { } ) . Error != nil {
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t . Errorf ( "Shouldn't raise error when looking with the new name" )
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}
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if db . Where ( "name = ?" , name2 ) . First ( & User { } ) . Error != nil {
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t . Errorf ( "Shouldn't update other users when update one" )
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}
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}
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func TestDelete ( t * testing . T ) {
name , name2 := "delete" , "delete2"
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user := User { Name : name , Age : 1 }
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db . Save ( & user )
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db . Save ( & User { Name : name2 , Age : 1 } )
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if db . Delete ( & user ) . Error != nil {
t . Errorf ( "Shouldn't raise any error when delete a user" )
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}
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if db . Where ( "name = ?" , name ) . First ( & User { } ) . Error == nil {
t . Errorf ( "User can't be found after delete" )
}
if db . Where ( "name = ?" , name2 ) . First ( & User { } ) . Error != nil {
t . Errorf ( "Other users shouldn't be deleted" )
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}
}
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func TestWhere ( t * testing . T ) {
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name := "where"
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db . Save ( & User { Name : name , Age : 1 } )
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user := & User { }
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db . Where ( "name = ?" , name ) . First ( user )
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if user . Name != name {
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t . Errorf ( "Search user with name" )
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}
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if db . Where ( user . Id ) . First ( & User { } ) . Error != nil {
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t . Errorf ( "Search user with primary key" )
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}
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if db . Where ( "name LIKE ?" , "%nonono%" ) . First ( & User { } ) . Error == nil {
t . Errorf ( "Search non-existing user with regexp name" )
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}
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if db . Where ( "name LIKE ?" , "%whe%" ) . First ( & User { } ) . Error != nil {
t . Errorf ( "Search user with regexp name" )
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}
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if db . Where ( "name = ?" , "non-existing user" ) . First ( & User { } ) . Error == nil {
t . Errorf ( "Search non-existing user should get error" )
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}
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var users [ ] User
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if ! db . Where ( "name = ?" , "none-noexisting" ) . Find ( & users ) . RecordNotFound ( ) {
t . Errorf ( "Should get RecordNotFound error when looking for none existing records" )
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}
}
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func TestComplexWhere ( t * testing . T ) {
var users [ ] User
db . Where ( "age > ?" , 20 ) . Find ( & users )
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if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users that age > 20, but got %v" , len ( users ) )
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}
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var user_ids [ ] int64
db . Table ( "users" ) . Where ( "age > ?" , 20 ) . Pluck ( "id" , & user_ids )
if len ( user_ids ) != 3 {
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t . Errorf ( "Should found 3 users that age > 20, but got %v" , len ( users ) )
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}
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users = [ ] User { }
db . Where ( user_ids ) . Find ( & users )
if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users that age > 20 when search with primary keys, but got %v" , len ( users ) )
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}
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users = [ ] User { }
db . Where ( "age >= ?" , 20 ) . Find ( & users )
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if len ( users ) != 4 {
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t . Errorf ( "Should found 4 users that age >= 20, but got %v" , len ( users ) )
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}
users = [ ] User { }
db . Where ( "age = ?" , 20 ) . Find ( & users )
if len ( users ) != 1 {
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t . Errorf ( "Should found 1 users age == 20, but got %v" , len ( users ) )
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}
users = [ ] User { }
db . Where ( "age <> ?" , 20 ) . Find ( & users )
if len ( users ) < 3 {
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t . Errorf ( "Should found more than 3 users age != 20, but got %v" , len ( users ) )
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}
users = [ ] User { }
db . Where ( "name = ? and age >= ?" , "3" , 20 ) . Find ( & users )
if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users that age >= 20 with name 3, but got %v" , len ( users ) )
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}
users = [ ] User { }
db . Where ( "name = ?" , "3" ) . Where ( "age >= ?" , 20 ) . Find ( & users )
if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users that age >= 20 with name 3, but got %v" , len ( users ) )
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}
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users = [ ] User { }
db . Where ( "birthday > ?" , t2 ) . Find ( & users )
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if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users's birthday >= t2, but got %v" , len ( users ) )
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}
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users = [ ] User { }
db . Where ( "birthday > ?" , "2002-10-10" ) . Find ( & users )
if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users's birthday >= 2002-10-10, but got %v" , len ( users ) )
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}
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users = [ ] User { }
db . Where ( "birthday >= ?" , t1 ) . Where ( "birthday < ?" , t2 ) . Find ( & users )
if len ( users ) != 1 {
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t . Errorf ( "Should found 1 users's birthday <= t2, but got %v" , len ( users ) )
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}
users = [ ] User { }
db . Where ( "birthday >= ? and birthday <= ?" , t1 , t2 ) . Find ( & users )
if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users's birthday <= t2, but got %v" , len ( users ) )
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}
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users = [ ] User { }
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db . Where ( "name in (?)" , [ ] string { "1" , "3" } ) . Find ( & users )
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if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users's name in (1, 3), but got %v" , len ( users ) )
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}
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user_ids = [ ] int64 { }
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for _ , user := range users {
user_ids = append ( user_ids , user . Id )
}
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users = [ ] User { }
db . Where ( "id in (?)" , user_ids ) . Find ( & users )
if len ( users ) != 3 {
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t . Errorf ( "Should found 3 users's name in (1, 3), but got %v" , len ( users ) )
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}
users = [ ] User { }
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db . Where ( "id in (?)" , user_ids [ 0 ] ) . Find ( & users )
if len ( users ) != 1 {
t . Errorf ( "Should found 1 users's name in (1), but got %v" , len ( users ) )
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}
users = [ ] User { }
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db . Where ( "name in (?)" , [ ] string { "1" , "2" } ) . Find ( & users )
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if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users's name in (1, 2), but got %v" , len ( users ) )
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}
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}
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func TestSearchWithStruct ( t * testing . T ) {
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var user User
db . First ( & user , & User { Name : "2" } )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search first record with inline struct pointer" )
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}
db . First ( & user , User { Name : "2" } )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search first record with inline struct" )
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}
db . Where ( & User { Name : "2" } ) . First ( & user )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search first record with where struct" )
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}
var users [ ] User
db . Find ( & users , & User { Name : "3" } )
if len ( users ) != 2 {
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t . Errorf ( "Search all records with inline struct" )
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}
db . Where ( User { Name : "3" } ) . Find ( & users )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search all records with where struct" )
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}
}
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func TestSearchWithMap ( t * testing . T ) {
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var user User
db . First ( & user , map [ string ] interface { } { "name" : "2" } )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search first record with inline map" )
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}
db . Where ( map [ string ] interface { } { "name" : "2" } ) . First ( & user )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search first record with where map" )
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}
var users [ ] User
db . Find ( & users , map [ string ] interface { } { "name" : "3" } )
if len ( users ) != 2 {
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t . Errorf ( "Search all records with inline map" )
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}
db . Where ( map [ string ] interface { } { "name" : "3" } ) . Find ( & users )
if user . Id == 0 || user . Name != "2" {
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t . Errorf ( "Search all records with where map" )
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}
}
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func TestInitlineCondition ( t * testing . T ) {
var u1 , u2 , u3 , u4 , u5 , u6 , u7 User
db . Where ( "name = ?" , "3" ) . Order ( "age desc" ) . First ( & u1 ) . First ( & u2 )
db . Where ( "name = ?" , "3" ) . First ( & u3 , "age = 22" ) . First ( & u4 , "age = ?" , 24 ) . First ( & u5 , "age = ?" , 26 )
if ! ( ( u5 . Id == 0 ) && ( u3 . Age == 22 && u3 . Name == "3" ) && ( u4 . Age == 24 && u4 . Name == "3" ) ) {
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t . Errorf ( "Find first record with inline condition and where" )
}
db . First ( & u6 , u1 . Id )
if ! ( u6 . Id == u1 . Id && u6 . Id != 0 ) {
t . Errorf ( "Find first record with primary key" )
}
db . First ( & u7 , strconv . Itoa ( int ( u1 . Id ) ) )
if ! ( u6 . Id == u1 . Id && u6 . Id != 0 ) {
t . Errorf ( "Find first record with string primary key" )
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}
var us1 , us2 , us3 , us4 [ ] User
db . Find ( & us1 , "age = 22" ) . Find ( & us2 , "name = ?" , "3" ) . Find ( & us3 , "age > ?" , 20 )
if ! ( len ( us1 ) == 1 && len ( us2 ) == 2 && len ( us3 ) == 3 ) {
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t . Errorf ( "Find all records with inline condition and where" )
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}
db . Find ( & us4 , "name = ? and age > ?" , "3" , "22" )
if len ( us4 ) != 1 {
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t . Errorf ( "Find all records with complex inline condition" )
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}
}
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func TestSelect ( t * testing . T ) {
var user User
db . Where ( "name = ?" , "3" ) . Select ( "name" ) . Find ( & user )
if user . Id != 0 {
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t . Errorf ( "Should not have ID because only searching age, %+v" , user . Id )
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}
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if user . Name != "3" {
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t . Errorf ( "Should got Name = 3 when searching with it, %+v" , user . Id )
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}
}
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func TestOrderAndPluck ( t * testing . T ) {
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var ages , ages1 , ages2 , ages3 , ages4 , ages5 [ ] int64
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db . Model ( & [ ] User { } ) . Order ( "age desc" ) . Pluck ( "age" , & ages )
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if ages [ 0 ] != 26 {
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t . Errorf ( "The first age should be 26 when order with age desc" )
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}
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db . Model ( [ ] User { } ) . Order ( "age desc" ) . Pluck ( "age" , & ages1 ) . Order ( "age" ) . Pluck ( "age" , & ages2 )
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if ! reflect . DeepEqual ( ages1 , ages2 ) {
t . Errorf ( "The first order is the primary order" )
}
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db . Model ( & User { } ) . Order ( "age desc" ) . Pluck ( "age" , & ages3 ) . Order ( "age" , true ) . Pluck ( "age" , & ages4 )
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if reflect . DeepEqual ( ages3 , ages4 ) {
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t . Errorf ( "Reorder should work" )
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}
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var names [ ] string
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db . Model ( User { } ) . Order ( "name" ) . Order ( "age desc" ) . Pluck ( "age" , & ages5 ) . Pluck ( "name" , & names )
if ! ( names [ 0 ] == "1" && names [ 2 ] == "3" && names [ 3 ] == "3" && ages5 [ 2 ] == 24 && ages5 [ 3 ] == 22 ) {
t . Errorf ( "Order with multiple orders" )
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}
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db . Model ( User { } ) . Select ( "name, age" ) . Find ( & [ ] User { } )
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}
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func TestLimit ( t * testing . T ) {
var users1 , users2 , users3 [ ] User
db . Order ( "age desc" ) . Limit ( 3 ) . Find ( & users1 ) . Limit ( 5 ) . Find ( & users2 ) . Limit ( - 1 ) . Find ( & users3 )
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if len ( users1 ) != 3 || len ( users2 ) != 5 || len ( users3 ) <= 5 {
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t . Errorf ( "Limit should work" )
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}
}
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func TestOffset ( t * testing . T ) {
var users1 , users2 , users3 , users4 [ ] User
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db . Limit ( 100 ) . Order ( "age desc" ) . Find ( & users1 ) . Offset ( 3 ) . Find ( & users2 ) . Offset ( 5 ) . Find ( & users3 ) . Offset ( - 1 ) . Find ( & users4 )
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if ( len ( users1 ) != len ( users4 ) ) || ( len ( users1 ) - len ( users2 ) != 3 ) || ( len ( users1 ) - len ( users3 ) != 5 ) {
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t . Errorf ( "Offset should work" )
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}
}
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func TestOr ( t * testing . T ) {
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var users [ ] User
db . Where ( "name = ?" , "1" ) . Or ( "name = ?" , "3" ) . Find ( & users )
if len ( users ) != 3 {
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t . Errorf ( "Find users with or" )
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}
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}
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func TestCount ( t * testing . T ) {
var count , count1 , count2 int64
var users [ ] User
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if err := db . Where ( "name = ?" , "1" ) . Or ( "name = ?" , "3" ) . Find ( & users ) . Count ( & count ) . Error ; err != nil {
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t . Errorf ( "Count should work" , err )
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}
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if count != int64 ( len ( users ) ) {
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t . Errorf ( "Count() method should get correct value" )
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}
db . Model ( & User { } ) . Where ( "name = ?" , "1" ) . Count ( & count1 ) . Or ( "name = ?" , "3" ) . Count ( & count2 )
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if count1 != 1 || count2 != 3 {
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t . Errorf ( "Multiple count should work" )
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}
}
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func TestCreatedAtAndUpdatedAt ( t * testing . T ) {
name := "check_created_at_and_updated_at"
u := User { Name : name , Age : 1 }
db . Save ( & u )
created_at := u . CreatedAt
updated_at := u . UpdatedAt
if created_at . IsZero ( ) {
t . Errorf ( "Should have created_at after create" )
}
if updated_at . IsZero ( ) {
t . Errorf ( "Should have updated_at after create" )
}
u . Name = "check_created_at_and_updated_at_2"
db . Save ( & u )
created_at2 := u . CreatedAt
updated_at2 := u . UpdatedAt
if created_at != created_at2 {
t . Errorf ( "Created At should not changed after update" )
}
if updated_at == updated_at2 {
t . Errorf ( "Updated At should be changed after update" )
}
}
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func ( s * Product ) BeforeCreate ( ) ( err error ) {
if s . Code == "Invalid" {
err = errors . New ( "invalid product" )
}
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s . BeforeCreateCallTimes = s . BeforeCreateCallTimes + 1
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return
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}
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func ( s * Product ) BeforeUpdate ( ) ( err error ) {
if s . Code == "dont_update" {
err = errors . New ( "Can't update" )
}
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s . BeforeUpdateCallTimes = s . BeforeUpdateCallTimes + 1
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return
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}
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func ( s * Product ) BeforeSave ( ) ( err error ) {
if s . Code == "dont_save" {
err = errors . New ( "Can't save" )
}
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s . BeforeSaveCallTimes = s . BeforeSaveCallTimes + 1
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return
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}
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func ( s * Product ) AfterFind ( ) {
s . AfterFindCallTimes = s . AfterFindCallTimes + 1
}
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func ( s * Product ) AfterCreate ( db * gorm . DB ) {
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db . Model ( s ) . UpdateColumn ( Product { AfterCreateCallTimes : s . AfterCreateCallTimes + 1 } )
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}
func ( s * Product ) AfterUpdate ( ) {
s . AfterUpdateCallTimes = s . AfterUpdateCallTimes + 1
}
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func ( s * Product ) AfterSave ( ) ( err error ) {
if s . Code == "after_save_error" {
err = errors . New ( "Can't save" )
}
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s . AfterSaveCallTimes = s . AfterSaveCallTimes + 1
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return
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}
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func ( s * Product ) BeforeDelete ( ) ( err error ) {
if s . Code == "dont_delete" {
err = errors . New ( "Can't delete" )
}
s . BeforeDeleteCallTimes = s . BeforeDeleteCallTimes + 1
return
}
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func ( s * Product ) AfterDelete ( ) ( err error ) {
if s . Code == "after_delete_error" {
err = errors . New ( "Can't delete" )
}
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s . AfterDeleteCallTimes = s . AfterDeleteCallTimes + 1
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return
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}
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func ( p * Product ) GetCallTimes ( ) [ ] int64 {
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return [ ] int64 { p . BeforeCreateCallTimes , p . BeforeSaveCallTimes , p . BeforeUpdateCallTimes , p . AfterCreateCallTimes , p . AfterSaveCallTimes , p . AfterUpdateCallTimes , p . BeforeDeleteCallTimes , p . AfterDeleteCallTimes , p . AfterFindCallTimes }
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}
func TestRunCallbacks ( t * testing . T ) {
p := Product { Code : "unique_code" , Price : 100 }
db . Save ( & p )
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if ! reflect . DeepEqual ( p . GetCallTimes ( ) , [ ] int64 { 1 , 1 , 0 , 1 , 1 , 0 , 0 , 0 , 0 } ) {
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t . Errorf ( "Callbacks should be invoked successfully, %v" , p . GetCallTimes ( ) )
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}
db . Where ( "Code = ?" , "unique_code" ) . First ( & p )
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if ! reflect . DeepEqual ( p . GetCallTimes ( ) , [ ] int64 { 1 , 1 , 0 , 1 , 0 , 0 , 0 , 0 , 1 } ) {
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t . Errorf ( "After callbacks values are not saved, %v" , p . GetCallTimes ( ) )
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}
p . Price = 200
db . Save ( & p )
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if ! reflect . DeepEqual ( p . GetCallTimes ( ) , [ ] int64 { 1 , 2 , 1 , 1 , 1 , 1 , 0 , 0 , 1 } ) {
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t . Errorf ( "After update callbacks should be invoked successfully, %v" , p . GetCallTimes ( ) )
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}
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var products [ ] Product
db . Find ( & products , "code = ?" , "unique_code" )
if products [ 0 ] . AfterFindCallTimes != 2 {
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t . Errorf ( "AfterFind callbacks should work with slice" )
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}
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db . Where ( "Code = ?" , "unique_code" ) . First ( & p )
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if ! reflect . DeepEqual ( p . GetCallTimes ( ) , [ ] int64 { 1 , 2 , 1 , 1 , 0 , 0 , 0 , 0 , 2 } ) {
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t . Errorf ( "After update callbacks values are not saved, %v" , p . GetCallTimes ( ) )
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}
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db . Delete ( & p )
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if ! reflect . DeepEqual ( p . GetCallTimes ( ) , [ ] int64 { 1 , 2 , 1 , 1 , 0 , 0 , 1 , 1 , 2 } ) {
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t . Errorf ( "After delete callbacks should be invoked successfully, %v" , p . GetCallTimes ( ) )
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}
if db . Where ( "Code = ?" , "unique_code" ) . First ( & p ) . Error == nil {
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t . Errorf ( "Can't find a deleted record" )
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}
}
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func TestCallbacksWithErrors ( t * testing . T ) {
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p := Product { Code : "Invalid" , Price : 100 }
if db . Save ( & p ) . Error == nil {
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t . Errorf ( "An error from before create callbacks happened when create with invalid value" )
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}
if db . Where ( "code = ?" , "Invalid" ) . First ( & Product { } ) . Error == nil {
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t . Errorf ( "Should not save record that have errors" )
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}
if db . Save ( & Product { Code : "dont_save" , Price : 100 } ) . Error == nil {
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t . Errorf ( "An error from after create callbacks happened when create with invalid value" )
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}
p2 := Product { Code : "update_callback" , Price : 100 }
db . Save ( & p2 )
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p2 . Code = "dont_update"
if db . Save ( & p2 ) . Error == nil {
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t . Errorf ( "An error from before update callbacks happened when update with invalid value" )
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}
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if db . Where ( "code = ?" , "update_callback" ) . First ( & Product { } ) . Error != nil {
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t . Errorf ( "Record Should not be updated due to errors happened in before update callback" )
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}
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if db . Where ( "code = ?" , "dont_update" ) . First ( & Product { } ) . Error == nil {
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t . Errorf ( "Record Should not be updated due to errors happened in before update callback" )
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}
p2 . Code = "dont_save"
if db . Save ( & p2 ) . Error == nil {
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t . Errorf ( "An error from before save callbacks happened when update with invalid value" )
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}
p3 := Product { Code : "dont_delete" , Price : 100 }
db . Save ( & p3 )
if db . Delete ( & p3 ) . Error == nil {
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t . Errorf ( "An error from before delete callbacks happened when delete" )
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}
if db . Where ( "Code = ?" , "dont_delete" ) . First ( & p3 ) . Error != nil {
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t . Errorf ( "An error from before delete callbacks happened" )
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}
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p4 := Product { Code : "after_save_error" , Price : 100 }
db . Save ( & p4 )
if err := db . First ( & Product { } , "code = ?" , "after_save_error" ) . Error ; err == nil {
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t . Errorf ( "Record should be reverted if get an error in after save callback" , err )
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}
p5 := Product { Code : "after_delete_error" , Price : 100 }
db . Save ( & p5 )
if err := db . First ( & Product { } , "code = ?" , "after_delete_error" ) . Error ; err != nil {
t . Errorf ( "Record should be found" , err )
}
db . Delete ( & p5 )
if err := db . First ( & Product { } , "code = ?" , "after_delete_error" ) . Error ; err != nil {
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t . Errorf ( "Record shouldn't be deleted because of an error happened in after delete callback" , err )
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}
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}
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func TestFillSmallerStructCorrectly ( t * testing . T ) {
type SimpleUser struct {
Name string
Id int64
UpdatedAt time . Time
CreatedAt time . Time
}
var simple_user SimpleUser
db . Table ( "users" ) . Find ( & simple_user )
if simple_user . Id == 0 || simple_user . Name == "" {
t . Errorf ( "Should fill data correctly even some column missing" )
}
}
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func TestExceptionsWithInvalidSql ( t * testing . T ) {
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var columns [ ] string
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if db . Where ( "sdsd.zaaa = ?" , "sd;;;aa" ) . Pluck ( "aaa" , & columns ) . Error == nil {
t . Errorf ( "Should got error with invalid SQL" )
}
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if db . Model ( & User { } ) . Where ( "sdsd.zaaa = ?" , "sd;;;aa" ) . Pluck ( "aaa" , & columns ) . Error == nil {
t . Errorf ( "Should got error with invalid SQL" )
}
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type Article struct {
Name string
}
db . Where ( "sdsd.zaaa = ?" , "sd;;;aa" ) . Find ( & Article { } )
db . Where ( "name = ?" , "3" ) . Find ( & [ ] User { } )
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var count1 , count2 int64
db . Model ( & User { } ) . Count ( & count1 )
if count1 <= 0 {
t . Errorf ( "Should find some users" )
}
q := db . Where ( "name = ?" , "jinzhu; delete * from users" ) . First ( & User { } )
if q . Error == nil {
t . Errorf ( "Can't find user" )
}
db . Model ( & User { } ) . Count ( & count2 )
if count1 != count2 {
t . Errorf ( "Users should not be deleted by invalid SQL" )
}
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db . Where ( "non-existing = ?" , "3" ) . Find ( & [ ] User { } )
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}
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func TestSetTableDirectly ( t * testing . T ) {
var ages [ ] int64
if db . Table ( "users" ) . Pluck ( "age" , & ages ) . Error != nil {
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t . Errorf ( "No errors should happen if set table for pluck" )
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}
if len ( ages ) == 0 {
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t . Errorf ( "Should get some records" )
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}
var users [ ] User
if db . Table ( "users" ) . Find ( & users ) . Error != nil {
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t . Errorf ( "No errors should happen if set table for find" )
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}
if db . Table ( "unexisting_users_table" ) . Find ( & users ) . Error == nil {
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t . Errorf ( "Should got error if set table to an invalid table" )
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}
db . Exec ( "drop table deleted_users;" )
if db . Table ( "deleted_users" ) . CreateTable ( & User { } ) . Error != nil {
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t . Errorf ( "Should create table with specified table" )
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}
db . Table ( "deleted_users" ) . Save ( & User { Name : "DeletedUser" } )
var deleted_users [ ] User
db . Table ( "deleted_users" ) . Find ( & deleted_users )
if len ( deleted_users ) != 1 {
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t . Errorf ( "Query from specified table" )
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}
var deleted_user User
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db . Table ( "deleted_users" ) . First ( & deleted_user )
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if deleted_user . Name != "DeletedUser" {
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t . Errorf ( "Query from specified table" )
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}
var user1 , user2 , user3 User
db . First ( & user1 ) . Table ( "deleted_users" ) . First ( & user2 ) . Table ( "" ) . First ( & user3 )
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if ( user1 . Name == user2 . Name ) || ( user1 . Name != user3 . Name ) {
t . Errorf ( "unset specified table with blank string" )
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}
}
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func TestUpdate ( t * testing . T ) {
product1 := Product { Code : "123" }
product2 := Product { Code : "234" }
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animal1 := Animal { Name : "Ferdinand" }
animal2 := Animal { Name : "nerdz" }
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db . Save ( & product1 ) . Save ( & product2 ) . Update ( "code" , "456" )
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if product2 . Code != "456" {
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t . Errorf ( "Record should be updated with update attributes" )
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}
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db . Save ( & animal1 ) . Save ( & animal2 ) . Update ( "name" , "Francis" )
if animal2 . Name != "Francis" {
t . Errorf ( "Record should be updated with update attributes" )
}
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db . First ( & product1 , product1 . Id )
db . First ( & product2 , product2 . Id )
updated_at1 := product1 . UpdatedAt
updated_at2 := product2 . UpdatedAt
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db . First ( & animal1 , animal1 . Counter )
db . First ( & animal2 , animal2 . Counter )
animalUpdated_at1 := animal1 . UpdatedAt
animalUpdated_at2 := animal2 . UpdatedAt
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var product3 Product
db . First ( & product3 , product2 . Id ) . Update ( "code" , "456" )
if updated_at2 . Format ( time . RFC3339Nano ) != product3 . UpdatedAt . Format ( time . RFC3339Nano ) {
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t . Errorf ( "updated_at should not be updated if nothing changed" )
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}
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if db . First ( & Product { } , "code = '123'" ) . Error != nil {
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t . Errorf ( "Product 123 should not be updated" )
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}
if db . First ( & Product { } , "code = '234'" ) . Error == nil {
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t . Errorf ( "Product 234 should be changed to 456" )
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}
if db . First ( & Product { } , "code = '456'" ) . Error != nil {
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t . Errorf ( "Product 234 should be changed to 456" )
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}
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var animal3 Animal
db . First ( & animal3 , animal2 . Counter ) . Update ( "Name" , "Robert" )
if animalUpdated_at2 . Format ( time . RFC3339Nano ) != animal2 . UpdatedAt . Format ( time . RFC3339Nano ) {
t . Errorf ( "updated_at should not be updated if nothing changed" )
}
if db . First ( & Animal { } , "name = 'Ferdinand'" ) . Error != nil {
t . Errorf ( "Animal 'Ferdinand' should not be updated" )
}
if db . First ( & Animal { } , "name = 'nerdz'" ) . Error == nil {
t . Errorf ( "Animal 'nerdz' should be changed to 'Francis'" )
}
if db . First ( & Animal { } , "name = 'Robert'" ) . Error != nil {
t . Errorf ( "Animal 'nerdz' should be changed to 'Robert'" )
}
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db . Table ( "products" ) . Where ( "code in (?)" , [ ] string { "123" } ) . Update ( "code" , "789" )
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var product4 Product
db . First ( & product4 , product1 . Id )
if updated_at1 . Format ( time . RFC3339Nano ) != product4 . UpdatedAt . Format ( time . RFC3339Nano ) {
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t . Errorf ( "updated_at should be updated if something changed" )
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}
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if db . First ( & Product { } , "code = '123'" ) . Error == nil {
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t . Errorf ( "Product 123 should be changed to 789" )
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}
if db . First ( & Product { } , "code = '456'" ) . Error != nil {
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t . Errorf ( "Product 456 should not be changed to 789" )
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}
if db . First ( & Product { } , "code = '789'" ) . Error != nil {
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t . Errorf ( "Product 456 should be changed to 789" )
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}
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if db . Model ( product2 ) . Update ( "CreatedAt" , time . Now ( ) . Add ( time . Hour ) ) . Error != nil {
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t . Error ( "No error should raise when update with CamelCase" )
}
if db . Model ( & product2 ) . UpdateColumn ( "CreatedAt" , time . Now ( ) . Add ( time . Hour ) ) . Error != nil {
t . Error ( "No error should raise when update_column with CamelCase" )
}
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db . Table ( "animals" ) . Where ( "name in (?)" , [ ] string { "Ferdinand" } ) . Update ( "name" , "Franz" )
var animal4 Animal
db . First ( & animal4 , animal1 . Counter )
if animalUpdated_at1 . Format ( time . RFC3339Nano ) != animal4 . UpdatedAt . Format ( time . RFC3339Nano ) {
t . Errorf ( "animalUpdated_at should be updated if something changed" )
}
if db . First ( & Animal { } , "name = 'Ferdinand'" ) . Error == nil {
t . Errorf ( "Animal 'Fredinand' should be changed to 'Franz'" )
}
if db . First ( & Animal { } , "name = 'Robert'" ) . Error != nil {
t . Errorf ( "Animal 'Robert' should not be changed to 'Francis'" )
}
if db . First ( & Animal { } , "name = 'Franz'" ) . Error != nil {
t . Errorf ( "Product 'nerdz' should be changed to 'Franz'" )
}
if db . Model ( animal2 ) . Update ( "CreatedAt" , time . Now ( ) . Add ( time . Hour ) ) . Error != nil {
t . Error ( "No error should raise when update with CamelCase" )
}
if db . Model ( & animal2 ) . UpdateColumn ( "CreatedAt" , time . Now ( ) . Add ( time . Hour ) ) . Error != nil {
t . Error ( "No error should raise when update_column with CamelCase" )
}
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var animals [ ] Animal
db . Find ( & animals )
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if count := db . Model ( Animal { } ) . Update ( "CreatedAt" , time . Now ( ) . Add ( 2 * time . Hour ) ) . RowsAffected ; count != int64 ( len ( animals ) ) {
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t . Error ( "RowsAffected should be correct when do batch update" )
}
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}
func TestUpdates ( t * testing . T ) {
product1 := Product { Code : "abc" , Price : 10 }
product2 := Product { Code : "cde" , Price : 20 }
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db . Save ( & product1 ) . Save ( & product2 )
db . Model ( & product2 ) . Updates ( map [ string ] interface { } { "code" : "edf" , "price" : 100 } )
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if product2 . Code != "edf" || product2 . Price != 100 {
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t . Errorf ( "Record should be updated also with update attributes" )
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}
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db . First ( & product1 , product1 . Id )
db . First ( & product2 , product2 . Id )
updated_at1 := product1 . UpdatedAt
updated_at2 := product2 . UpdatedAt
var product3 Product
2013-10-31 04:29:57 +04:00
db . First ( & product3 , product2 . Id ) . Updates ( Product { Code : "edf" , Price : 100 } )
if product3 . Code != "edf" || product3 . Price != 100 {
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t . Errorf ( "Record should be updated with update attributes" )
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}
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if updated_at2 . Format ( time . RFC3339Nano ) != product3 . UpdatedAt . Format ( time . RFC3339Nano ) {
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t . Errorf ( "updated_at should not be updated if nothing changed" )
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}
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if db . First ( & Product { } , "code = 'abc' and price = 10" ) . Error != nil {
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t . Errorf ( "Product abc should not be updated" )
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}
if db . First ( & Product { } , "code = 'cde'" ) . Error == nil {
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t . Errorf ( "Product cde should be renamed to edf" )
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}
if db . First ( & Product { } , "code = 'edf' and price = 100" ) . Error != nil {
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t . Errorf ( "Product cde should be renamed to edf" )
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}
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db . Table ( "products" ) . Where ( "code in (?)" , [ ] string { "abc" } ) . Updates ( map [ string ] string { "code" : "fgh" , "price" : "200" } )
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if db . First ( & Product { } , "code = 'abc'" ) . Error == nil {
t . Errorf ( "Product abc's code should be changed to fgh" )
}
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var product4 Product
db . First ( & product4 , product1 . Id )
if updated_at1 . Format ( time . RFC3339Nano ) != product4 . UpdatedAt . Format ( time . RFC3339Nano ) {
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t . Errorf ( "updated_at should be updated if something changed" )
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}
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if db . First ( & Product { } , "code = 'edf' and price = ?" , 100 ) . Error != nil {
t . Errorf ( "Product cde's code should not be changed to fgh" )
}
if db . First ( & Product { } , "code = 'fgh' and price = 200" ) . Error != nil {
t . Errorf ( "We should have Product fgh" )
}
}
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func TestUpdateColumn ( t * testing . T ) {
product1 := Product { Code : "update_column 1" , Price : 10 }
product2 := Product { Code : "update_column 2" , Price : 20 }
db . Save ( & product1 ) . Save ( & product2 ) . UpdateColumn ( map [ string ] interface { } { "code" : "update_column 3" , "price" : 100 } )
if product2 . Code != "update_column 3" || product2 . Price != 100 {
t . Errorf ( "product 2 should be updated with update column" )
}
var product3 Product
db . First ( & product3 , product1 . Id )
if product3 . Code != "update_column 1" || product3 . Price != 10 {
t . Errorf ( "product 1 should not be updated" )
}
var product4 , product5 Product
db . First ( & product4 , product2 . Id )
updated_at1 := product4 . UpdatedAt
db . Model ( Product { } ) . Where ( product2 . Id ) . UpdateColumn ( "code" , "update_column_new" )
db . First ( & product5 , product2 . Id )
if updated_at1 . Format ( time . RFC3339Nano ) != product5 . UpdatedAt . Format ( time . RFC3339Nano ) {
t . Errorf ( "updated_at should not be updated with update column" )
}
}
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func TestSoftDelete ( t * testing . T ) {
type Order struct {
Id int64
Amount int64
DeletedAt time . Time
}
db . Exec ( "drop table orders;" )
db . CreateTable ( & Order { } )
order := Order { Amount : 1234 }
db . Save ( & order )
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if db . First ( & Order { } , "amount = ?" , 1234 ) . Error != nil {
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t . Errorf ( "No errors should happen when save an order" )
}
db . Delete ( & order )
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if db . First ( & Order { } , "amount = 1234" ) . Error == nil {
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t . Errorf ( "Can't find order because it is soft deleted" )
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}
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if db . Unscoped ( ) . First ( & Order { } , "amount = 1234" ) . Error != nil {
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t . Errorf ( "Should be able to find out the soft deleted order with unscoped" )
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}
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db . Unscoped ( ) . Delete ( & order )
if db . Unscoped ( ) . First ( & Order { } , "amount = 1234" ) . Error == nil {
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t . Errorf ( "Can't find permanently deleted order" )
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}
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}
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func TestFindOrInitialize ( t * testing . T ) {
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var user1 , user2 , user3 , user4 , user5 , user6 User
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db . Where ( & User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user1 )
if user1 . Name != "find or init" || user1 . Id != 0 || user1 . Age != 33 {
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t . Errorf ( "user should be initialized with search value" )
}
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db . Where ( User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user2 )
if user2 . Name != "find or init" || user2 . Id != 0 || user2 . Age != 33 {
t . Errorf ( "user should be initialized with search value" )
}
db . FirstOrInit ( & user3 , map [ string ] interface { } { "name" : "find or init 2" } )
if user3 . Name != "find or init 2" || user3 . Id != 0 {
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t . Errorf ( "user should be initialized with inline search value" )
}
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db . Where ( & User { Name : "find or init" } ) . Attrs ( User { Age : 44 } ) . FirstOrInit ( & user4 )
if user4 . Name != "find or init" || user4 . Id != 0 || user4 . Age != 44 {
t . Errorf ( "user should be initialized with search value and attrs" )
}
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db . Where ( & User { Name : "find or init" } ) . Assign ( "age" , 44 ) . FirstOrInit ( & user4 )
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if user4 . Name != "find or init" || user4 . Id != 0 || user4 . Age != 44 {
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t . Errorf ( "user should be initialized with search value and assign attrs" )
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}
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db . Save ( & User { Name : "find or init" , Age : 33 } )
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db . Where ( & User { Name : "find or init" } ) . Attrs ( "age" , 44 ) . FirstOrInit ( & user5 )
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if user5 . Name != "find or init" || user5 . Id == 0 || user5 . Age != 33 {
t . Errorf ( "user should be found and not initialized by Attrs" )
}
db . Where ( & User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user6 )
if user6 . Name != "find or init" || user6 . Id == 0 || user6 . Age != 33 {
t . Errorf ( "user should be found with FirstOrInit" )
}
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db . Where ( & User { Name : "find or init" } ) . Assign ( User { Age : 44 } ) . FirstOrInit ( & user6 )
if user6 . Name != "find or init" || user6 . Id == 0 || user6 . Age != 44 {
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t . Errorf ( "user should be found and updated with assigned attrs" )
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}
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}
func TestFindOrCreate ( t * testing . T ) {
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var user1 , user2 , user3 , user4 , user5 , user6 , user7 , user8 User
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db . Where ( & User { Name : "find or create" , Age : 33 } ) . FirstOrCreate ( & user1 )
if user1 . Name != "find or create" || user1 . Id == 0 || user1 . Age != 33 {
t . Errorf ( "user should be created with search value" )
}
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db . Where ( & User { Name : "find or create" , Age : 33 } ) . FirstOrCreate ( & user2 )
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if user1 . Id != user2 . Id || user2 . Name != "find or create" || user2 . Id == 0 || user2 . Age != 33 {
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t . Errorf ( "user should be created with search value" )
}
db . FirstOrCreate ( & user3 , map [ string ] interface { } { "name" : "find or create 2" } )
if user3 . Name != "find or create 2" || user3 . Id == 0 {
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t . Errorf ( "user should be created with inline search value" )
}
2013-10-30 11:21:58 +04:00
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db . Where ( & User { Name : "find or create 3" } ) . Attrs ( "age" , 44 ) . FirstOrCreate ( & user4 )
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if user4 . Name != "find or create 3" || user4 . Id == 0 || user4 . Age != 44 {
t . Errorf ( "user should be created with search value and attrs" )
}
2014-02-18 06:03:14 +04:00
updated_at1 := user4 . UpdatedAt
db . Where ( & User { Name : "find or create 3" } ) . Assign ( "age" , 55 ) . FirstOrCreate ( & user4 )
if updated_at1 . Format ( time . RFC3339Nano ) == user4 . UpdatedAt . Format ( time . RFC3339Nano ) {
t . Errorf ( "UpdateAt should be changed when update values with assign" )
}
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db . Where ( & User { Name : "find or create 4" } ) . Assign ( User { Age : 44 } ) . FirstOrCreate ( & user4 )
if user4 . Name != "find or create 4" || user4 . Id == 0 || user4 . Age != 44 {
t . Errorf ( "user should be created with search value and assigned attrs" )
}
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db . Where ( & User { Name : "find or create" } ) . Attrs ( "age" , 44 ) . FirstOrInit ( & user5 )
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if user5 . Name != "find or create" || user5 . Id == 0 || user5 . Age != 33 {
t . Errorf ( "user should be found and not initialized by Attrs" )
}
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db . Where ( & User { Name : "find or create" } ) . Assign ( User { Age : 44 } ) . FirstOrCreate ( & user6 )
if user6 . Name != "find or create" || user6 . Id == 0 || user6 . Age != 44 {
t . Errorf ( "user should be found and updated with assigned attrs" )
}
db . Where ( & User { Name : "find or create" } ) . Find ( & user7 )
if user7 . Name != "find or create" || user7 . Id == 0 || user7 . Age != 44 {
t . Errorf ( "user should be found and updated with assigned attrs" )
}
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db . Where ( & User { Name : "find or create embedded struct" } ) . Assign ( User { Age : 44 , CreditCard : CreditCard { Number : "1231231231" } , Emails : [ ] Email { { Email : "jinzhu@assign_embedded_struct.com" } , { Email : "jinzhu-2@assign_embedded_struct.com" } } } ) . FirstOrCreate ( & user8 )
if db . Where ( "email = ?" , "jinzhu-2@assign_embedded_struct.com" ) . First ( & Email { } ) . RecordNotFound ( ) {
t . Errorf ( "embedded struct email should be saved" )
}
if db . Where ( "email = ?" , "1231231231" ) . First ( & CreditCard { } ) . RecordNotFound ( ) {
t . Errorf ( "embedded struct credit card should be saved" )
}
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}
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func TestNot ( t * testing . T ) {
var users1 , users2 , users3 , users4 , users5 , users6 , users7 , users8 [ ] User
db . Find ( & users1 )
db . Not ( users1 [ 0 ] . Id ) . Find ( & users2 )
if len ( users1 ) - len ( users2 ) != 1 {
t . Errorf ( "Should ignore the first users with Not" )
}
db . Not ( [ ] int { } ) . Find ( & users3 )
if len ( users1 ) - len ( users3 ) != 0 {
t . Errorf ( "Should find all users with a blank condition" )
}
var name_3_count int64
db . Table ( "users" ) . Where ( "name = ?" , "3" ) . Count ( & name_3_count )
db . Not ( "name" , "3" ) . Find ( & users4 )
if len ( users1 ) - len ( users4 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
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users4 = [ ] User { }
db . Not ( "name = ?" , "3" ) . Find ( & users4 )
if len ( users1 ) - len ( users4 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
users4 = [ ] User { }
db . Not ( "name <> ?" , "3" ) . Find ( & users4 )
if len ( users4 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
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db . Not ( User { Name : "3" } ) . Find ( & users5 )
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if len ( users1 ) - len ( users5 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
db . Not ( map [ string ] interface { } { "name" : "3" } ) . Find ( & users6 )
if len ( users1 ) - len ( users6 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
db . Not ( "name" , [ ] string { "3" } ) . Find ( & users7 )
if len ( users1 ) - len ( users7 ) != int ( name_3_count ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
var name_2_count int64
db . Table ( "users" ) . Where ( "name = ?" , "2" ) . Count ( & name_2_count )
db . Not ( "name" , [ ] string { "3" , "2" } ) . Find ( & users8 )
if len ( users1 ) - len ( users8 ) != ( int ( name_3_count ) + int ( name_2_count ) ) {
t . Errorf ( "Should find all users's name not equal 3" )
}
}
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type Category struct {
Id int64
Name string
}
type Post struct {
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Id int64
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CategoryId sql . NullInt64
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MainCategoryId int64
Title string
Body string
Comments [ ] Comment
Category Category
MainCategory Category
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}
type Comment struct {
Id int64
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PostId int64
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Content string
Post Post
}
func TestSubStruct ( t * testing . T ) {
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db . DropTable ( Category { } )
db . DropTable ( Post { } )
db . DropTable ( Comment { } )
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db . CreateTable ( Category { } )
db . CreateTable ( Post { } )
db . CreateTable ( Comment { } )
post := Post {
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Title : "post 1" ,
Body : "body 1" ,
Comments : [ ] Comment { { Content : "Comment 1" } , { Content : "Comment 2" } } ,
Category : Category { Name : "Category 1" } ,
MainCategory : Category { Name : "Main Category 1" } ,
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}
if err := db . Save ( & post ) . Error ; err != nil {
t . Errorf ( "Got errors when save post" , err )
}
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if db . First ( & Category { } , "name = ?" , "Category 1" ) . Error != nil {
t . Errorf ( "Category should be saved" )
}
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var p Post
db . First ( & p , post . Id )
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if post . CategoryId . Int64 == 0 || p . CategoryId . Int64 == 0 || post . MainCategoryId == 0 || p . MainCategoryId == 0 {
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t . Errorf ( "Category Id should exist" )
}
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if db . First ( & Comment { } , "content = ?" , "Comment 1" ) . Error != nil {
t . Errorf ( "Comment 1 should be saved" )
}
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if post . Comments [ 0 ] . PostId == 0 {
t . Errorf ( "Comment Should have post id" )
}
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var comment Comment
if db . First ( & comment , "content = ?" , "Comment 2" ) . Error != nil {
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t . Errorf ( "Comment 2 should be saved" )
}
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if comment . PostId == 0 {
t . Errorf ( "Comment 2 Should have post id" )
}
comment3 := Comment { Content : "Comment 3" , Post : Post { Title : "Title 3" , Body : "Body 3" } }
db . Save ( & comment3 )
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}
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func TestIgnoreAssociation ( t * testing . T ) {
user := User { Name : "ignore" , IgnoredEmbedStruct : IgnoredEmbedStruct { Name : "IgnoreMe" } }
if err := db . Save ( & user ) . Error ; err != nil {
t . Errorf ( "Should have no error with ignored association, but got " , err )
}
}
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func TestRelated ( t * testing . T ) {
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user := User {
Name : "jinzhu" ,
BillingAddress : Address { Address1 : "Billing Address - Address 1" } ,
ShippingAddress : Address { Address1 : "Shipping Address - Address 1" } ,
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Emails : [ ] Email { { Email : "jinzhu@example.com" } , { Email : "jinzhu-2@example@example.com" } } ,
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CreditCard : CreditCard { Number : "1234567890" } ,
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}
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db . Save ( & user )
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if user . CreditCard . Id == 0 {
t . Errorf ( "After user save, credit card should have id" )
}
if user . BillingAddress . Id == 0 {
t . Errorf ( "After user save, billing address should have id" )
}
if user . Emails [ 0 ] . Id == 0 {
t . Errorf ( "After user save, billing address should have id" )
}
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var emails [ ] Email
db . Model ( & user ) . Related ( & emails )
if len ( emails ) != 2 {
t . Errorf ( "Should have two emails" )
}
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var emails2 [ ] Email
db . Model ( & user ) . Where ( "email = ?" , "jinzhu@example.com" ) . Related ( & emails2 )
if len ( emails2 ) != 1 {
t . Errorf ( "Should have two emails" )
}
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var user1 User
db . Model ( & user ) . Related ( & user1 . Emails )
if len ( user1 . Emails ) != 2 {
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t . Errorf ( "Should have only one email match related condition" )
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}
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var address1 Address
db . Model ( & user ) . Related ( & address1 , "BillingAddressId" )
if address1 . Address1 != "Billing Address - Address 1" {
t . Errorf ( "Should get billing address from user correctly" )
}
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user1 = User { }
db . Model ( & address1 ) . Related ( & user1 , "BillingAddressId" )
if db . NewRecord ( user1 ) {
t . Errorf ( "Should get user from address correctly" )
}
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var user2 User
db . Model ( & emails [ 0 ] ) . Related ( & user2 )
if user2 . Id != user . Id || user2 . Name != user . Name {
t . Errorf ( "Should get user from email correctly" )
}
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var credit_card CreditCard
var user3 User
db . First ( & credit_card , "number = ?" , "1234567890" )
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db . Model ( & credit_card ) . Related ( & user3 )
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if user3 . Id != user . Id || user3 . Name != user . Name {
t . Errorf ( "Should get user from credit card correctly" )
}
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if ! db . Model ( & CreditCard { } ) . Related ( & User { } ) . RecordNotFound ( ) {
t . Errorf ( "RecordNotFound for Related" )
}
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}
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type Order struct {
}
type Cart struct {
}
func ( c Cart ) TableName ( ) string {
return "shopping_cart"
}
func TestTableName ( t * testing . T ) {
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if db . NewScope ( Order { } ) . TableName ( ) != "orders" {
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t . Errorf ( "Order's table name should be orders" )
}
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if db . NewScope ( & Order { } ) . TableName ( ) != "orders" {
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t . Errorf ( "&Order's table name should be orders" )
}
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if db . NewScope ( [ ] Order { } ) . TableName ( ) != "orders" {
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t . Errorf ( "[]Order's table name should be orders" )
}
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if db . NewScope ( & [ ] Order { } ) . TableName ( ) != "orders" {
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t . Errorf ( "&[]Order's table name should be orders" )
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}
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db . SingularTable ( true )
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if db . NewScope ( Order { } ) . TableName ( ) != "order" {
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t . Errorf ( "Order's singular table name should be order" )
}
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if db . NewScope ( & Order { } ) . TableName ( ) != "order" {
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t . Errorf ( "&Order's singular table name should be order" )
}
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if db . NewScope ( [ ] Order { } ) . TableName ( ) != "order" {
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t . Errorf ( "[]Order's singular table name should be order" )
}
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if db . NewScope ( & [ ] Order { } ) . TableName ( ) != "order" {
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t . Errorf ( "&[]Order's singular table name should be order" )
}
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if db . NewScope ( & Cart { } ) . TableName ( ) != "shopping_cart" {
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t . Errorf ( "&Cart's singular table name should be shopping_cart" )
}
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if db . NewScope ( Cart { } ) . TableName ( ) != "shopping_cart" {
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t . Errorf ( "Cart's singular table name should be shopping_cart" )
}
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if db . NewScope ( & [ ] Cart { } ) . TableName ( ) != "shopping_cart" {
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t . Errorf ( "&[]Cart's singular table name should be shopping_cart" )
}
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if db . NewScope ( [ ] Cart { } ) . TableName ( ) != "shopping_cart" {
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t . Errorf ( "[]Cart's singular table name should be shopping_cart" )
}
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db . SingularTable ( false )
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}
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type BigEmail struct {
Id int64
UserId int64
Email string
UserAgent string
RegisteredAt time . Time
CreatedAt time . Time
UpdatedAt time . Time
}
func ( b BigEmail ) TableName ( ) string {
return "emails"
}
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func TestAutoMigration ( t * testing . T ) {
db . AutoMigrate ( Address { } )
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if err := db . Table ( "emails" ) . AutoMigrate ( BigEmail { } ) . Error ; err != nil {
t . Errorf ( "Auto Migrate should not raise any error" , err )
}
db . Save ( & BigEmail { Email : "jinzhu@example.org" , UserAgent : "pc" , RegisteredAt : time . Now ( ) } )
var big_email BigEmail
db . First ( & big_email , "user_agent = ?" , "pc" )
if big_email . Email != "jinzhu@example.org" || big_email . UserAgent != "pc" || big_email . RegisteredAt . IsZero ( ) {
t . Error ( "Big Emails should be saved and fetched correctly" )
}
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if err := db . Save ( & BigEmail { Email : "jinzhu@example.org" , UserAgent : "pc" , RegisteredAt : time . Now ( ) } ) . Error ; err == nil {
t . Error ( "Should not be able to save because of unique tag" )
}
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}
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type NullTime struct {
Time time . Time
Valid bool
}
func ( nt * NullTime ) Scan ( value interface { } ) error {
if value == nil {
nt . Valid = false
return nil
}
nt . Time , nt . Valid = value . ( time . Time ) , true
return nil
}
func ( nt NullTime ) Value ( ) ( driver . Value , error ) {
if ! nt . Valid {
return nil , nil
}
return nt . Time , nil
}
type NullValue struct {
Id int64
Name sql . NullString ` sql:"not null" `
Age sql . NullInt64
Male sql . NullBool
Height sql . NullFloat64
AddedAt NullTime
}
func TestSqlNullValue ( t * testing . T ) {
db . DropTable ( & NullValue { } )
db . AutoMigrate ( & NullValue { } )
if err := db . Save ( & NullValue { Name : sql . NullString { "hello" , true } , Age : sql . NullInt64 { 18 , true } , Male : sql . NullBool { true , true } , Height : sql . NullFloat64 { 100.11 , true } , AddedAt : NullTime { time . Now ( ) , true } } ) . Error ; err != nil {
t . Errorf ( "Not error should raise when test null value" , err )
}
var nv NullValue
db . First ( & nv , "name = ?" , "hello" )
if nv . Name . String != "hello" || nv . Age . Int64 != 18 || nv . Male . Bool != true || nv . Height . Float64 != 100.11 || nv . AddedAt . Valid != true {
t . Errorf ( "Should be able to fetch null value" )
}
if err := db . Save ( & NullValue { Name : sql . NullString { "hello-2" , true } , Age : sql . NullInt64 { 18 , false } , Male : sql . NullBool { true , true } , Height : sql . NullFloat64 { 100.11 , true } , AddedAt : NullTime { time . Now ( ) , false } } ) . Error ; err != nil {
t . Errorf ( "Not error should raise when test null value" , err )
}
var nv2 NullValue
db . First ( & nv2 , "name = ?" , "hello-2" )
if nv2 . Name . String != "hello-2" || nv2 . Age . Int64 != 0 || nv2 . Male . Bool != true || nv2 . Height . Float64 != 100.11 || nv2 . AddedAt . Valid != false {
t . Errorf ( "Should be able to fetch null value" )
}
if err := db . Save ( & NullValue { Name : sql . NullString { "hello-3" , false } , Age : sql . NullInt64 { 18 , false } , Male : sql . NullBool { true , true } , Height : sql . NullFloat64 { 100.11 , true } , AddedAt : NullTime { time . Now ( ) , false } } ) . Error ; err == nil {
t . Errorf ( "Can't save because of name can't be null" , err )
}
}
func TestTransaction ( t * testing . T ) {
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tx := db . Begin ( )
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u := User { Name : "transcation" }
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if err := tx . Save ( & u ) . Error ; err != nil {
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t . Errorf ( "No error should raise, but got" , err )
}
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if err := tx . First ( & User { } , "name = ?" , "transcation" ) . Error ; err != nil {
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t . Errorf ( "Should find saved record, but got" , err )
}
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if sql_tx , ok := tx . CommonDB ( ) . ( * sql . Tx ) ; ! ok || sql_tx == nil {
t . Errorf ( "Should return the underlying sql.Tx" )
}
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tx . Rollback ( )
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if err := tx . First ( & User { } , "name = ?" , "transcation" ) . Error ; err == nil {
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t . Errorf ( "Should not find record after rollback" )
}
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tx2 := db . Begin ( )
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u2 := User { Name : "transcation-2" }
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if err := tx2 . Save ( & u2 ) . Error ; err != nil {
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t . Errorf ( "No error should raise, but got" , err )
}
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if err := tx2 . First ( & User { } , "name = ?" , "transcation-2" ) . Error ; err != nil {
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t . Errorf ( "Should find saved record, but got" , err )
}
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tx2 . Commit ( )
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if err := db . First ( & User { } , "name = ?" , "transcation-2" ) . Error ; err != nil {
t . Errorf ( "Should be able to find committed record" )
}
}
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func TestQueryChain ( t * testing . T ) {
var user_count1 , user_count2 int64
d := db . Model ( User { } ) . Where ( "age > ?" , 20 )
d . Where ( "name = ?" , "3" ) . Count ( & user_count1 )
d . Count ( & user_count2 )
if user_count2 == user_count1 {
t . Error ( "DB object should be cloned when search" )
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}
}
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func TestRow ( t * testing . T ) {
row := db . Table ( "users" ) . Where ( "name = ?" , "2" ) . Select ( "age" ) . Row ( )
var age int64
row . Scan ( & age )
if age != 20 {
t . Errorf ( "Scan with Row" )
}
}
func TestRows ( t * testing . T ) {
rows , err := db . Table ( "users" ) . Where ( "name = ?" , "3" ) . Select ( "name, age" ) . Rows ( )
if err != nil {
t . Errorf ( "Not error should happen, but got" , err )
}
count := 0
for rows . Next ( ) {
var name string
var age int64
rows . Scan ( & name , & age )
count ++
}
if count != 2 {
t . Errorf ( "Should found two records with name 3" )
}
}
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type result struct {
Name string
Age int
}
func TestScan ( t * testing . T ) {
var res result
db . Table ( "users" ) . Select ( "name, age" ) . Where ( "name = ?" , 3 ) . Scan ( & res )
if res . Name != "3" {
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t . Errorf ( "Scan into struct should work" )
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}
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var doubleAgeRes result
db . Table ( "users" ) . Select ( "age + age as age" ) . Where ( "name = ?" , 3 ) . Scan ( & doubleAgeRes )
if doubleAgeRes . Age != res . Age * 2 {
t . Errorf ( "Scan double age as age" )
}
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var ress [ ] result
db . Table ( "users" ) . Select ( "name, age" ) . Where ( "name = ?" , 3 ) . Scan ( & ress )
if len ( ress ) != 2 || ress [ 0 ] . Name != "3" || ress [ 1 ] . Name != "3" {
t . Errorf ( "Scan into struct map" )
}
}
func TestRaw ( t * testing . T ) {
var ress [ ] result
db . Raw ( "SELECT name, age FROM users WHERE name = ?" , 3 ) . Scan ( & ress )
if len ( ress ) != 2 || ress [ 0 ] . Name != "3" || ress [ 1 ] . Name != "3" {
t . Errorf ( "Raw with scan" )
}
rows , _ := db . Raw ( "select name, age from users where name = ?" , 3 ) . Rows ( )
count := 0
for rows . Next ( ) {
count ++
}
if count != 2 {
t . Errorf ( "Raw with Rows should find two records with name 3" )
}
}
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func TestGroup ( t * testing . T ) {
rows , err := db . Select ( "name" ) . Table ( "users" ) . Group ( "name" ) . Rows ( )
if err == nil {
defer rows . Close ( )
for rows . Next ( ) {
var name string
rows . Scan ( & name )
}
} else {
t . Errorf ( "Should not raise any error" )
}
}
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func TestJoins ( t * testing . T ) {
type result struct {
Name string
Email string
}
user := User {
Name : "joins" ,
Emails : [ ] Email { { Email : "join1@example.com" } , { Email : "join2@example.com" } } ,
}
db . Save ( & user )
var results [ ] result
db . Table ( "users" ) . Select ( "name, email" ) . Joins ( "left join emails on emails.user_id = users.id" ) . Where ( "name = ?" , "joins" ) . Scan ( & results )
if len ( results ) != 2 || results [ 0 ] . Email != "join1@example.com" || results [ 1 ] . Email != "join2@example.com" {
t . Errorf ( "Should find all two emails with Join" )
}
}
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func NameIn1And2 ( d * gorm . DB ) * gorm . DB {
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return d . Where ( "name in (?)" , [ ] string { "1" , "2" } )
}
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func NameIn2And3 ( d * gorm . DB ) * gorm . DB {
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return d . Where ( "name in (?)" , [ ] string { "2" , "3" } )
}
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func NameIn ( names [ ] string ) func ( d * gorm . DB ) * gorm . DB {
return func ( d * gorm . DB ) * gorm . DB {
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return d . Where ( "name in (?)" , names )
}
}
func TestScopes ( t * testing . T ) {
var users1 , users2 , users3 [ ] User
db . Scopes ( NameIn1And2 ) . Find ( & users1 )
if len ( users1 ) != 2 {
t . Errorf ( "Should only have two users's name in 1, 2" )
}
db . Scopes ( NameIn1And2 , NameIn2And3 ) . Find ( & users2 )
if len ( users2 ) != 1 {
t . Errorf ( "Should only have two users's name is 2" )
}
db . Scopes ( NameIn ( [ ] string { "1" , "2" } ) ) . Find ( & users3 )
if len ( users3 ) != 2 {
t . Errorf ( "Should only have two users's name is 2" )
}
}
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func TestHaving ( t * testing . T ) {
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rows , err := db . Select ( "name, count(*) as total" ) . Table ( "users" ) . Group ( "name" ) . Having ( "name IN (?)" , [ ] string { "2" , "3" } ) . Rows ( )
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if err == nil {
defer rows . Close ( )
for rows . Next ( ) {
var name string
var total int64
rows . Scan ( & name , & total )
if name == "2" && total != 1 {
t . Errorf ( "Should have one user having name 2" , total )
}
if name == "3" && total != 2 {
t . Errorf ( "Should have two users having name 3" , total )
}
}
} else {
t . Errorf ( "Should not raise any error" , err )
}
}
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func TestAnonymousField ( t * testing . T ) {
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user := User { Name : "anonymous_field" , Company : Company { Name : "company" } }
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db . Save ( & user )
var user2 User
db . First ( & user2 , "name = ?" , "anonymous_field" )
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db . Model ( & user2 ) . Related ( & user2 . Company )
if user2 . Company . Name != "company" {
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t . Errorf ( "Should be able to get anonymous field" )
}
}
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func TestAnonymousScanner ( t * testing . T ) {
user := User { Name : "anonymous_scanner" , Role : Role { Name : "admin" } }
db . Save ( & user )
var user2 User
db . First ( & user2 , "name = ?" , "anonymous_scanner" )
if user2 . Role . Name != "admin" {
t . Errorf ( "Should be able to get anonymous scanner" )
}
if ! user2 . IsAdmin ( ) {
t . Errorf ( "Should be able to get anonymous scanner" )
}
}
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func TestExecRawSql ( t * testing . T ) {
db . Exec ( "update users set name=? where name in (?)" , "jinzhu" , [ ] string { "1" , "2" , "3" } )
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if db . Where ( "name in (?)" , [ ] string { "1" , "2" , "3" } ) . First ( & User { } ) . Error != gorm . RecordNotFound {
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t . Error ( "Raw sql should be able to parse argument" )
}
}
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func TestTimeWithZone ( t * testing . T ) {
var format = "2006-01-02 15:04:05 -0700"
var times [ ] time . Time
GMT8 , _ := time . LoadLocation ( "Asia/Shanghai" )
times = append ( times , time . Date ( 2013 , 02 , 19 , 1 , 51 , 49 , 123456789 , GMT8 ) )
times = append ( times , time . Date ( 2013 , 02 , 18 , 17 , 51 , 49 , 123456789 , time . UTC ) )
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for index , vtime := range times {
name := "time_with_zone_" + strconv . Itoa ( index )
user := User { Name : name , Birthday : vtime }
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db . Save ( & user )
if user . Birthday . UTC ( ) . Format ( format ) != "2013-02-18 17:51:49 +0000" {
t . Errorf ( "User's birthday should not be changed after save" )
}
if user . DeletedAt . UTC ( ) . Format ( format ) != "0001-01-01 00:00:00 +0000" {
t . Errorf ( "User's deleted at should be zero" )
}
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var findUser , findUser2 , findUser3 User
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db . First ( & findUser , "name = ?" , name )
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if findUser . Birthday . UTC ( ) . Format ( format ) != "2013-02-18 17:51:49 +0000" {
t . Errorf ( "User's birthday should not be changed after find" )
}
if findUser . DeletedAt . UTC ( ) . Format ( format ) != "0001-01-01 00:00:00 +0000" {
t . Errorf ( "User's deleted at should be zero" )
}
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if db . Where ( "birthday >= ?" , vtime . Add ( - time . Minute ) ) . First ( & findUser2 ) . RecordNotFound ( ) {
t . Errorf ( "User should be found" )
}
if ! db . Where ( "birthday >= ?" , vtime . Add ( time . Minute ) ) . First ( & findUser3 ) . RecordNotFound ( ) {
t . Errorf ( "User should not be found" )
}
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}
}
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func BenchmarkGorm ( b * testing . B ) {
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b . N = 2000
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for x := 0 ; x < b . N ; x ++ {
e := strconv . Itoa ( x ) + "benchmark@example.org"
email := BigEmail { Email : e , UserAgent : "pc" , RegisteredAt : time . Now ( ) }
// Insert
db . Save ( & email )
// Query
db . First ( & BigEmail { } , "email = ?" , e )
// Update
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db . Model ( & email ) . UpdateColumn ( "email" , "new-" + e )
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// Delete
db . Delete ( & email )
}
}
func BenchmarkRawSql ( b * testing . B ) {
db , _ := sql . Open ( "postgres" , "user=gorm dbname=gorm sslmode=disable" )
db . SetMaxIdleConns ( 10 )
insert_sql := "INSERT INTO emails (user_id,email,user_agent,registered_at,created_at,updated_at) VALUES ($1,$2,$3,$4,$5,$6) RETURNING id"
query_sql := "SELECT * FROM emails WHERE email = $1 ORDER BY id LIMIT 1"
update_sql := "UPDATE emails SET email = $1, updated_at = $2 WHERE id = $3"
delete_sql := "DELETE FROM orders WHERE id = $1"
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b . N = 2000
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for x := 0 ; x < b . N ; x ++ {
var id int64
e := strconv . Itoa ( x ) + "benchmark@example.org"
email := BigEmail { Email : e , UserAgent : "pc" , RegisteredAt : time . Now ( ) }
// Insert
db . QueryRow ( insert_sql , email . UserId , email . Email , email . UserAgent , email . RegisteredAt , time . Now ( ) , time . Now ( ) ) . Scan ( & id )
// Query
rows , _ := db . Query ( query_sql , email . Email )
rows . Close ( )
// Update
db . Exec ( update_sql , "new-" + e , time . Now ( ) , id )
// Delete
db . Exec ( delete_sql , id )
}
}
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func TestSelectWithEscapedFieldName ( t * testing . T ) {
var names [ ] string
db . Model ( Animal { } ) . Where ( & Animal { From : "nerdz" } ) . Pluck ( "\"name\"" , & names )
if len ( names ) != 1 {
t . Errorf ( "Expected one name, but got: %d" , len ( names ) )
}
}
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func TestIndices ( t * testing . T ) {
if err := db . Model ( & UserCompany { } ) . AddIndex ( "idx_user_company_user" , "user_id" ) . Error ; err != nil {
t . Errorf ( "Got error when tried to create index: %+v" , err )
}
if err := db . Model ( & UserCompany { } ) . RemoveIndex ( "idx_user_company_user" ) . Error ; err != nil {
t . Errorf ( "Got error when tried to remove index: %+v" , err )
}
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if err := db . Model ( & UserCompany { } ) . AddIndex ( "idx_user_company_user_company" , "user_id" , "company_id" ) . Error ; err != nil {
t . Errorf ( "Got error when tried to create index: %+v" , err )
}
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if err := db . Model ( & UserCompany { } ) . RemoveIndex ( "idx_user_company_user_company" ) . Error ; err != nil {
t . Errorf ( "Got error when tried to remove index: %+v" , err )
}
if err := db . Model ( & UserCompany { } ) . AddUniqueIndex ( "idx_user_company_user_company" , "user_id" , "company_id" ) . Error ; err != nil {
t . Errorf ( "Got error when tried to create index: %+v" , err )
}
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}
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func TestHstore ( t * testing . T ) {
if dialect := os . Getenv ( "GORM_DIALECT" ) ; dialect != "postgres" {
t . Skip ( )
}
if err := db . Exec ( "CREATE EXTENSION IF NOT EXISTS hstore" ) . Error ; err != nil {
panic ( fmt . Sprintf ( "No error should happen when create hstore extension, but got %+v" , err ) )
}
db . Exec ( "drop table details" )
if err := db . CreateTable ( & Details { } ) . Error ; err != nil {
panic ( fmt . Sprintf ( "No error should happen when create table, but got %+v" , err ) )
}
bankAccountId , phoneNumber , opinion := "123456" , "14151321232" , "sharkbait"
bulk := map [ string ] * string {
"bankAccountId" : & bankAccountId ,
"phoneNumber" : & phoneNumber ,
"opinion" : & opinion ,
}
d := Details { Bulk : bulk }
db . Save ( & d )
var d2 Details
if err := db . First ( & d2 ) . Error ; err != nil {
t . Errorf ( "Got error when tried to fetch details: %+v" , err )
}
for k := range bulk {
r , ok := d2 . Bulk [ k ]
if ! ok {
t . Errorf ( "Details should be existed" )
}
if res , _ := bulk [ k ] ; * res != * r {
t . Errorf ( "Details should be equal" )
}
}
}