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package gorm_test
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import (
"fmt"
"reflect"
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"github.com/jinzhu/gorm"
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"testing"
"time"
)
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func TestFirstAndLast ( t * testing . T ) {
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DB . Save ( & User { Name : "user1" , Emails : [ ] Email { { Email : "user1@example.com" } } } )
DB . Save ( & User { Name : "user2" , Emails : [ ] Email { { Email : "user2@example.com" } } } )
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var user1 , user2 , user3 , user4 User
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DB . First ( & user1 )
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DB . Order ( "id" ) . Limit ( 1 ) . Find ( & user2 )
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ptrOfUser3 := & user3
DB . Last ( & ptrOfUser3 )
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DB . Order ( "id desc" ) . Limit ( 1 ) . Find ( & user4 )
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if user1 . Id != user2 . Id || user3 . Id != user4 . Id {
t . Errorf ( "First and Last should by order by primary key" )
}
var users [ ] User
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DB . First ( & users )
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if len ( users ) != 1 {
t . Errorf ( "Find first record as slice" )
}
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var user User
if DB . Joins ( "left join emails on emails.user_id = users.id" ) . First ( & user ) . Error != nil {
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t . Errorf ( "Should not raise any error when order with Join table" )
}
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if user . Email != "" {
t . Errorf ( "User's Email should be blank as no one set it" )
}
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}
func TestFirstAndLastWithNoStdPrimaryKey ( t * testing . T ) {
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DB . Save ( & Animal { Name : "animal1" } )
DB . Save ( & Animal { Name : "animal2" } )
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var animal1 , animal2 , animal3 , animal4 Animal
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DB . First ( & animal1 )
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DB . Order ( "counter" ) . Limit ( 1 ) . Find ( & animal2 )
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DB . Last ( & animal3 )
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DB . Order ( "counter desc" ) . Limit ( 1 ) . Find ( & animal4 )
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if animal1 . Counter != animal2 . Counter || animal3 . Counter != animal4 . Counter {
t . Errorf ( "First and Last should work correctly" )
}
}
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func TestFirstAndLastWithRaw ( t * testing . T ) {
user1 := User { Name : "user" , Emails : [ ] Email { { Email : "user1@example.com" } } }
user2 := User { Name : "user" , Emails : [ ] Email { { Email : "user2@example.com" } } }
DB . Save ( & user1 )
DB . Save ( & user2 )
var user3 , user4 User
DB . Raw ( "select * from users WHERE name = ?" , "user" ) . First ( & user3 )
if user3 . Id != user1 . Id {
t . Errorf ( "Find first record with raw" )
}
DB . Raw ( "select * from users WHERE name = ?" , "user" ) . Last ( & user4 )
if user4 . Id != user2 . Id {
t . Errorf ( "Find last record with raw" )
}
}
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func TestUIntPrimaryKey ( t * testing . T ) {
var animal Animal
DB . First ( & animal , uint64 ( 1 ) )
if animal . Counter != 1 {
t . Errorf ( "Fetch a record from with a non-int primary key should work, but failed" )
}
DB . Model ( Animal { } ) . Where ( Animal { Counter : uint64 ( 2 ) } ) . Scan ( & animal )
if animal . Counter != 2 {
t . Errorf ( "Fetch a record from with a non-int primary key should work, but failed" )
}
}
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func TestCustomizedTypePrimaryKey ( t * testing . T ) {
type ID uint
type CustomizedTypePrimaryKey struct {
ID ID
Name string
}
DB . AutoMigrate ( & CustomizedTypePrimaryKey { } )
p1 := CustomizedTypePrimaryKey { Name : "p1" }
p2 := CustomizedTypePrimaryKey { Name : "p2" }
p3 := CustomizedTypePrimaryKey { Name : "p3" }
DB . Create ( & p1 )
DB . Create ( & p2 )
DB . Create ( & p3 )
var p CustomizedTypePrimaryKey
if err := DB . First ( & p , p2 . ID ) . Error ; err == nil {
t . Errorf ( "Should return error for invalid query condition" )
}
if err := DB . First ( & p , "id = ?" , p2 . ID ) . Error ; err != nil {
t . Errorf ( "No error should happen when querying with customized type for primary key, got err %v" , err )
}
if p . Name != "p2" {
t . Errorf ( "Should find correct value when querying with customized type for primary key" )
}
}
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func TestStringPrimaryKeyForNumericValueStartingWithZero ( t * testing . T ) {
type AddressByZipCode struct {
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ZipCode string ` gorm:"primary_key" `
Address string
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}
DB . AutoMigrate ( & AddressByZipCode { } )
DB . Create ( & AddressByZipCode { ZipCode : "00501" , Address : "Holtsville" } )
var address AddressByZipCode
DB . First ( & address , "00501" )
if address . ZipCode != "00501" {
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t . Errorf ( "Fetch a record from with a string primary key for a numeric value starting with zero should work, but failed, zip code is %v" , address . ZipCode )
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}
}
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func TestStringAgainstIncompleteParentheses ( t * testing . T ) {
type AddressByZipCode struct {
ZipCode string ` gorm:"primary_key" `
Address string
}
DB . AutoMigrate ( & AddressByZipCode { } )
DB . Create ( & AddressByZipCode { ZipCode : "00502" , Address : "Holtsville" } )
var address AddressByZipCode
var addresses [ ] AddressByZipCode
_ = DB . First ( & address , "address_by_zip_codes=00502)) UNION ALL SELECT NULL,version(),current_database(),NULL,NULL,NULL,NULL,NULL--" ) . Find ( & addresses ) . GetErrors ( )
if len ( addresses ) > 0 {
t . Errorf ( "Fetch a record from with a string that has incomplete parentheses should be fail, zip code is %v" , address . ZipCode )
}
}
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func TestFindAsSliceOfPointers ( t * testing . T ) {
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DB . Save ( & User { Name : "user" } )
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var users [ ] User
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DB . Find ( & users )
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var userPointers [ ] * User
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DB . Find ( & userPointers )
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if len ( users ) == 0 || len ( users ) != len ( userPointers ) {
t . Errorf ( "Find slice of pointers" )
}
}
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func TestSearchWithPlainSQL ( t * testing . T ) {
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user1 := User { Name : "PlainSqlUser1" , Age : 1 , Birthday : parseTime ( "2000-1-1" ) }
user2 := User { Name : "PlainSqlUser2" , Age : 10 , Birthday : parseTime ( "2010-1-1" ) }
user3 := User { Name : "PlainSqlUser3" , Age : 20 , Birthday : parseTime ( "2020-1-1" ) }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
scopedb := DB . Where ( "name LIKE ?" , "%PlainSqlUser%" )
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if DB . Where ( "name = ?" , user1 . Name ) . First ( & User { } ) . RecordNotFound ( ) {
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t . Errorf ( "Search with plain SQL" )
}
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if DB . Where ( "name LIKE ?" , "%" + user1 . Name + "%" ) . First ( & User { } ) . RecordNotFound ( ) {
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t . Errorf ( "Search with plan SQL (regexp)" )
}
var users [ ] User
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DB . Find ( & users , "name LIKE ? and age > ?" , "%PlainSqlUser%" , 1 )
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if len ( users ) != 2 {
t . Errorf ( "Should found 2 users that age > 1, but got %v" , len ( users ) )
}
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DB . Where ( "name LIKE ?" , "%PlainSqlUser%" ) . Where ( "age >= ?" , 1 ) . Find ( & users )
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if len ( users ) != 3 {
t . Errorf ( "Should found 3 users that age >= 1, but got %v" , len ( users ) )
}
scopedb . Where ( "age <> ?" , 20 ) . Find ( & users )
if len ( users ) != 2 {
t . Errorf ( "Should found 2 users age != 20, but got %v" , len ( users ) )
}
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scopedb . Where ( "birthday > ?" , parseTime ( "2000-1-1" ) ) . Find ( & users )
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if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users' birthday > 2000-1-1, but got %v" , len ( users ) )
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}
scopedb . Where ( "birthday > ?" , "2002-10-10" ) . Find ( & users )
if len ( users ) != 2 {
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t . Errorf ( "Should found 2 users' birthday >= 2002-10-10, but got %v" , len ( users ) )
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}
scopedb . Where ( "birthday >= ?" , "2010-1-1" ) . Where ( "birthday < ?" , "2020-1-1" ) . Find ( & users )
if len ( users ) != 1 {
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t . Errorf ( "Should found 1 users' birthday < 2020-1-1 and >= 2010-1-1, but got %v" , len ( users ) )
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}
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DB . Where ( "name in (?)" , [ ] string { user1 . Name , user2 . Name } ) . Find ( & users )
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if len ( users ) != 2 {
t . Errorf ( "Should found 2 users, but got %v" , len ( users ) )
}
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DB . Where ( "id in (?)" , [ ] int64 { user1 . Id , user2 . Id , user3 . Id } ) . Find ( & users )
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if len ( users ) != 3 {
t . Errorf ( "Should found 3 users, but got %v" , len ( users ) )
}
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DB . Where ( "id in (?)" , user1 . Id ) . Find ( & users )
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if len ( users ) != 1 {
t . Errorf ( "Should found 1 users, but got %v" , len ( users ) )
}
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if err := DB . Where ( "id IN (?)" , [ ] string { } ) . Find ( & users ) . Error ; err != nil {
t . Error ( "no error should happen when query with empty slice, but got: " , err )
}
if err := DB . Not ( "id IN (?)" , [ ] string { } ) . Find ( & users ) . Error ; err != nil {
t . Error ( "no error should happen when query with empty slice, but got: " , err )
}
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if DB . Where ( "name = ?" , "none existing" ) . Find ( & [ ] User { } ) . RecordNotFound ( ) {
t . Errorf ( "Should not get RecordNotFound error when looking for none existing records" )
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}
}
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func TestSearchWithTwoDimensionalArray ( t * testing . T ) {
var users [ ] User
user1 := User { Name : "2DSearchUser1" , Age : 1 , Birthday : parseTime ( "2000-1-1" ) }
user2 := User { Name : "2DSearchUser2" , Age : 10 , Birthday : parseTime ( "2010-1-1" ) }
user3 := User { Name : "2DSearchUser3" , Age : 20 , Birthday : parseTime ( "2020-1-1" ) }
DB . Create ( & user1 )
DB . Create ( & user2 )
DB . Create ( & user3 )
if dialect := DB . Dialect ( ) . GetName ( ) ; dialect == "mysql" || dialect == "postgres" {
if err := DB . Where ( "(name, age) IN (?)" , [ ] [ ] interface { } { { "2DSearchUser1" , 1 } , { "2DSearchUser2" , 10 } } ) . Find ( & users ) . Error ; err != nil {
t . Errorf ( "No error should happen when query with 2D array, but got %v" , err )
if len ( users ) != 2 {
t . Errorf ( "Should find 2 users with 2D array, but got %v" , len ( users ) )
}
}
}
if dialect := DB . Dialect ( ) . GetName ( ) ; dialect == "mssql" {
if err := DB . Joins ( "JOIN (VALUES ?) AS x (col1, col2) ON x.col1 = name AND x.col2 = age" , [ ] [ ] interface { } { { "2DSearchUser1" , 1 } , { "2DSearchUser2" , 10 } } ) . Find ( & users ) . Error ; err != nil {
t . Errorf ( "No error should happen when query with 2D array, but got %v" , err )
if len ( users ) != 2 {
t . Errorf ( "Should find 2 users with 2D array, but got %v" , len ( users ) )
}
}
}
}
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func TestSearchWithStruct ( t * testing . T ) {
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user1 := User { Name : "StructSearchUser1" , Age : 1 , Birthday : parseTime ( "2000-1-1" ) }
user2 := User { Name : "StructSearchUser2" , Age : 10 , Birthday : parseTime ( "2010-1-1" ) }
user3 := User { Name : "StructSearchUser3" , Age : 20 , Birthday : parseTime ( "2020-1-1" ) }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
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if DB . Where ( user1 . Id ) . First ( & User { } ) . RecordNotFound ( ) {
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t . Errorf ( "Search with primary key" )
}
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if DB . First ( & User { } , user1 . Id ) . RecordNotFound ( ) {
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t . Errorf ( "Search with primary key as inline condition" )
}
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if DB . First ( & User { } , fmt . Sprintf ( "%v" , user1 . Id ) ) . RecordNotFound ( ) {
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t . Errorf ( "Search with primary key as inline condition" )
}
var users [ ] User
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DB . Where ( [ ] int64 { user1 . Id , user2 . Id , user3 . Id } ) . Find ( & users )
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if len ( users ) != 3 {
t . Errorf ( "Should found 3 users when search with primary keys, but got %v" , len ( users ) )
}
var user User
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DB . First ( & user , & User { Name : user1 . Name } )
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if user . Id == 0 || user . Name != user1 . Name {
t . Errorf ( "Search first record with inline pointer of struct" )
}
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DB . First ( & user , User { Name : user1 . Name } )
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if user . Id == 0 || user . Name != user1 . Name {
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t . Errorf ( "Search first record with inline struct" )
}
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DB . Where ( & User { Name : user1 . Name } ) . First ( & user )
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if user . Id == 0 || user . Name != user1 . Name {
t . Errorf ( "Search first record with where struct" )
}
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DB . Find ( & users , & User { Name : user2 . Name } )
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if len ( users ) != 1 {
t . Errorf ( "Search all records with inline struct" )
}
}
func TestSearchWithMap ( t * testing . T ) {
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companyID := 1
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user1 := User { Name : "MapSearchUser1" , Age : 1 , Birthday : parseTime ( "2000-1-1" ) }
user2 := User { Name : "MapSearchUser2" , Age : 10 , Birthday : parseTime ( "2010-1-1" ) }
user3 := User { Name : "MapSearchUser3" , Age : 20 , Birthday : parseTime ( "2020-1-1" ) }
user4 := User { Name : "MapSearchUser4" , Age : 30 , Birthday : parseTime ( "2020-1-1" ) , CompanyID : & companyID }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 ) . Save ( & user4 )
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var user User
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DB . First ( & user , map [ string ] interface { } { "name" : user1 . Name } )
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if user . Id == 0 || user . Name != user1 . Name {
t . Errorf ( "Search first record with inline map" )
}
user = User { }
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DB . Where ( map [ string ] interface { } { "name" : user2 . Name } ) . First ( & user )
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if user . Id == 0 || user . Name != user2 . Name {
t . Errorf ( "Search first record with where map" )
}
var users [ ] User
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DB . Where ( map [ string ] interface { } { "name" : user3 . Name } ) . Find ( & users )
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if len ( users ) != 1 {
t . Errorf ( "Search all records with inline map" )
}
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DB . Find ( & users , map [ string ] interface { } { "name" : user3 . Name } )
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if len ( users ) != 1 {
t . Errorf ( "Search all records with inline map" )
}
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DB . Find ( & users , map [ string ] interface { } { "name" : user4 . Name , "company_id" : nil } )
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if len ( users ) != 0 {
t . Errorf ( "Search all records with inline map containing null value finding 0 records" )
}
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DB . Find ( & users , map [ string ] interface { } { "name" : user1 . Name , "company_id" : nil } )
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if len ( users ) != 1 {
t . Errorf ( "Search all records with inline map containing null value finding 1 record" )
}
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DB . Find ( & users , map [ string ] interface { } { "name" : user4 . Name , "company_id" : companyID } )
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if len ( users ) != 1 {
t . Errorf ( "Search all records with inline multiple value map" )
}
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}
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func TestSearchWithEmptyChain ( t * testing . T ) {
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user1 := User { Name : "ChainSearchUser1" , Age : 1 , Birthday : parseTime ( "2000-1-1" ) }
user2 := User { Name : "ChainearchUser2" , Age : 10 , Birthday : parseTime ( "2010-1-1" ) }
user3 := User { Name : "ChainearchUser3" , Age : 20 , Birthday : parseTime ( "2020-1-1" ) }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
if DB . Where ( "" ) . Where ( "" ) . First ( & User { } ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty strings" )
}
if DB . Where ( & User { } ) . Where ( "name = ?" , user1 . Name ) . First ( & User { } ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty struct" )
}
if DB . Where ( map [ string ] interface { } { } ) . Where ( "name = ?" , user1 . Name ) . First ( & User { } ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty map" )
}
}
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func TestSelect ( t * testing . T ) {
user1 := User { Name : "SelectUser1" }
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DB . Save ( & user1 )
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var user User
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DB . Where ( "name = ?" , user1 . Name ) . Select ( "name" ) . Find ( & user )
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if user . Id != 0 {
t . Errorf ( "Should not have ID because only selected name, %+v" , user . Id )
}
if user . Name != user1 . Name {
t . Errorf ( "Should have user Name when selected it" )
}
}
func TestOrderAndPluck ( t * testing . T ) {
user1 := User { Name : "OrderPluckUser1" , Age : 1 }
user2 := User { Name : "OrderPluckUser2" , Age : 10 }
user3 := User { Name : "OrderPluckUser3" , Age : 20 }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
scopedb := DB . Model ( & User { } ) . Where ( "name like ?" , "%OrderPluckUser%" )
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var user User
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scopedb . Order ( gorm . Expr ( "case when name = ? then 0 else 1 end" , "OrderPluckUser2" ) ) . First ( & user )
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if user . Name != "OrderPluckUser2" {
t . Errorf ( "Order with sql expression" )
}
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var ages [ ] int64
scopedb . Order ( "age desc" ) . Pluck ( "age" , & ages )
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if ages [ 0 ] != 20 {
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t . Errorf ( "The first age should be 20 when order with age desc" )
}
var ages1 , ages2 [ ] int64
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scopedb . Order ( "age desc" ) . Pluck ( "age" , & ages1 ) . Pluck ( "age" , & ages2 )
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if ! reflect . DeepEqual ( ages1 , ages2 ) {
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t . Errorf ( "The first order is the primary order" )
}
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var ages3 , ages4 [ ] int64
scopedb . Model ( & User { } ) . Order ( "age desc" ) . Pluck ( "age" , & ages3 ) . Order ( "age" , true ) . Pluck ( "age" , & ages4 )
if reflect . DeepEqual ( ages3 , ages4 ) {
t . Errorf ( "Reorder should work" )
}
var names [ ] string
var ages5 [ ] int64
scopedb . Model ( User { } ) . Order ( "name" ) . Order ( "age desc" ) . Pluck ( "age" , & ages5 ) . Pluck ( "name" , & names )
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if names != nil && ages5 != nil {
if ! ( names [ 0 ] == user1 . Name && names [ 1 ] == user2 . Name && names [ 2 ] == user3 . Name && ages5 [ 2 ] == 20 ) {
t . Errorf ( "Order with multiple orders" )
}
} else {
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t . Errorf ( "Order with multiple orders" )
}
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var ages6 [ ] int64
if err := scopedb . Order ( "" ) . Pluck ( "age" , & ages6 ) . Error ; err != nil {
t . Errorf ( "An empty string as order clause produces invalid queries" )
}
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DB . Model ( User { } ) . Select ( "name, age" ) . Find ( & [ ] User { } )
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}
func TestLimit ( t * testing . T ) {
user1 := User { Name : "LimitUser1" , Age : 1 }
user2 := User { Name : "LimitUser2" , Age : 10 }
user3 := User { Name : "LimitUser3" , Age : 20 }
user4 := User { Name : "LimitUser4" , Age : 10 }
user5 := User { Name : "LimitUser5" , Age : 20 }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 ) . Save ( & user4 ) . Save ( & user5 )
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var users1 , users2 , users3 [ ] User
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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 {
t . Errorf ( "Limit should works" )
}
}
func TestOffset ( t * testing . T ) {
for i := 0 ; i < 20 ; i ++ {
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DB . Save ( & User { Name : fmt . Sprintf ( "OffsetUser%v" , i ) } )
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}
var users1 , users2 , users3 , users4 [ ] User
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DB . Limit ( 100 ) . Where ( "name like ?" , "OffsetUser%" ) . 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 ) {
t . Errorf ( "Offset should work" )
}
}
func TestOr ( t * testing . T ) {
user1 := User { Name : "OrUser1" , Age : 1 }
user2 := User { Name : "OrUser2" , Age : 10 }
user3 := User { Name : "OrUser3" , Age : 20 }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
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var users [ ] User
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DB . Where ( "name = ?" , user1 . Name ) . Or ( "name = ?" , user2 . Name ) . Find ( & users )
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if len ( users ) != 2 {
t . Errorf ( "Find users with or" )
}
}
func TestCount ( t * testing . T ) {
user1 := User { Name : "CountUser1" , Age : 1 }
user2 := User { Name : "CountUser2" , Age : 10 }
user3 := User { Name : "CountUser3" , Age : 20 }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
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var count , count1 , count2 int64
var users [ ] User
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if err := DB . Where ( "name = ?" , user1 . Name ) . Or ( "name = ?" , user3 . Name ) . Find ( & users ) . Count ( & count ) . Error ; err != nil {
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t . Errorf ( fmt . Sprintf ( "Count should work, but got err %v" , err ) )
}
if count != int64 ( len ( users ) ) {
t . Errorf ( "Count() method should get correct value" )
}
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DB . Model ( & User { } ) . Where ( "name = ?" , user1 . Name ) . Count ( & count1 ) . Or ( "name in (?)" , [ ] string { user2 . Name , user3 . Name } ) . Count ( & count2 )
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if count1 != 1 || count2 != 3 {
t . Errorf ( "Multiple count in chain" )
}
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var count3 int
if err := DB . Model ( & User { } ) . Where ( "name in (?)" , [ ] string { user2 . Name , user2 . Name , user3 . Name } ) . Group ( "id" ) . Count ( & count3 ) . Error ; err != nil {
t . Errorf ( "Not error should happen, but got %v" , err )
}
if count3 != 2 {
t . Errorf ( "Should get correct count, but got %v" , count3 )
}
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}
func TestNot ( t * testing . T ) {
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DB . Create ( getPreparedUser ( "user1" , "not" ) )
DB . Create ( getPreparedUser ( "user2" , "not" ) )
DB . Create ( getPreparedUser ( "user3" , "not" ) )
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user4 := getPreparedUser ( "user4" , "not" )
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user4 . Company = Company { }
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DB . Create ( user4 )
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DB := DB . Where ( "role = ?" , "not" )
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var users1 , users2 , users3 , users4 , users5 , users6 , users7 , users8 , users9 [ ] User
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if DB . Find ( & users1 ) . RowsAffected != 4 {
t . Errorf ( "should find 4 not users" )
}
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DB . Not ( users1 [ 0 ] . Id ) . Find ( & users2 )
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if len ( users1 ) - len ( users2 ) != 1 {
t . Errorf ( "Should ignore the first users with Not" )
}
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DB . Not ( [ ] int { } ) . Find ( & users3 )
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if len ( users1 ) - len ( users3 ) != 0 {
t . Errorf ( "Should find all users with a blank condition" )
}
var name3Count int64
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DB . Table ( "users" ) . Where ( "name = ?" , "user3" ) . Count ( & name3Count )
DB . Not ( "name" , "user3" ) . Find ( & users4 )
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if len ( users1 ) - len ( users4 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
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DB . Not ( "name = ?" , "user3" ) . Find ( & users4 )
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if len ( users1 ) - len ( users4 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
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DB . Not ( "name <> ?" , "user3" ) . Find ( & users4 )
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if len ( users4 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
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DB . Not ( User { Name : "user3" } ) . Find ( & users5 )
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if len ( users1 ) - len ( users5 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
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DB . Not ( map [ string ] interface { } { "name" : "user3" } ) . Find ( & users6 )
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if len ( users1 ) - len ( users6 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
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DB . Not ( map [ string ] interface { } { "name" : "user3" , "company_id" : nil } ) . Find ( & users7 )
if len ( users1 ) - len ( users7 ) != 2 { // not user3 or user4
t . Errorf ( "Should find all user's name not equal to 3 who do not have company id" )
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}
DB . Not ( "name" , [ ] string { "user3" } ) . Find ( & users8 )
if len ( users1 ) - len ( users8 ) != int ( name3Count ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
var name2Count int64
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DB . Table ( "users" ) . Where ( "name = ?" , "user2" ) . Count ( & name2Count )
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DB . Not ( "name" , [ ] string { "user3" , "user2" } ) . Find ( & users9 )
if len ( users1 ) - len ( users9 ) != ( int ( name3Count ) + int ( name2Count ) ) {
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t . Errorf ( "Should find all users' name not equal 3" )
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}
}
func TestFillSmallerStruct ( t * testing . T ) {
user1 := User { Name : "SmallerUser" , Age : 100 }
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DB . Save ( & user1 )
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type SimpleUser struct {
Name string
Id int64
UpdatedAt time . Time
CreatedAt time . Time
}
var simpleUser SimpleUser
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DB . Table ( "users" ) . Where ( "name = ?" , user1 . Name ) . First ( & simpleUser )
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if simpleUser . Id == 0 || simpleUser . Name == "" {
t . Errorf ( "Should fill data correctly into smaller struct" )
}
}
func TestFindOrInitialize ( t * testing . T ) {
var user1 , user2 , user3 , user4 , user5 , user6 User
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DB . Where ( & User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user1 )
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if user1 . Name != "find or init" || user1 . Id != 0 || user1 . Age != 33 {
t . Errorf ( "user should be initialized with search value" )
}
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DB . Where ( User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user2 )
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if user2 . Name != "find or init" || user2 . Id != 0 || user2 . Age != 33 {
t . Errorf ( "user should be initialized with search value" )
}
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DB . FirstOrInit ( & user3 , map [ string ] interface { } { "name" : "find or init 2" } )
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if user3 . Name != "find or init 2" || user3 . Id != 0 {
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 )
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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 {
t . Errorf ( "user should be initialized with search value and assign attrs" )
}
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DB . Save ( & User { Name : "find or init" , Age : 33 } )
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" )
}
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DB . Where ( & User { Name : "find or init" , Age : 33 } ) . FirstOrInit ( & user6 )
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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 )
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if user6 . Name != "find or init" || user6 . Id == 0 || user6 . Age != 44 {
t . Errorf ( "user should be found and updated with assigned attrs" )
}
}
func TestFindOrCreate ( t * testing . T ) {
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 )
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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 {
t . Errorf ( "user should be created with search value" )
}
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DB . FirstOrCreate ( & user3 , map [ string ] interface { } { "name" : "find or create 2" } )
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if user3 . Name != "find or create 2" || user3 . Id == 0 {
t . Errorf ( "user should be created with inline search value" )
}
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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" )
}
updatedAt1 := user4 . UpdatedAt
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DB . Where ( & User { Name : "find or create 3" } ) . Assign ( "age" , 55 ) . FirstOrCreate ( & user4 )
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if updatedAt1 . 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 )
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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 )
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if user6 . Name != "find or create" || user6 . Id == 0 || user6 . Age != 44 {
t . Errorf ( "user should be found and updated with assigned attrs" )
}
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DB . Where ( & User { Name : "find or create" } ) . Find ( & user7 )
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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 ( ) {
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t . Errorf ( "embedded struct email should be saved" )
}
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if DB . Where ( "email = ?" , "1231231231" ) . First ( & CreditCard { } ) . RecordNotFound ( ) {
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t . Errorf ( "embedded struct credit card should be saved" )
}
}
func TestSelectWithEscapedFieldName ( t * testing . T ) {
user1 := User { Name : "EscapedFieldNameUser" , Age : 1 }
user2 := User { Name : "EscapedFieldNameUser" , Age : 10 }
user3 := User { Name : "EscapedFieldNameUser" , Age : 20 }
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DB . Save ( & user1 ) . Save ( & user2 ) . Save ( & user3 )
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var names [ ] string
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DB . Model ( User { } ) . Where ( & User { Name : "EscapedFieldNameUser" } ) . Pluck ( "\"name\"" , & names )
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if len ( names ) != 3 {
t . Errorf ( "Expected 3 name, but got: %d" , len ( names ) )
}
}
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func TestSelectWithVariables ( t * testing . T ) {
DB . Save ( & User { Name : "jinzhu" } )
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rows , _ := DB . Table ( "users" ) . Select ( "? as fake" , gorm . Expr ( "name" ) ) . Rows ( )
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if ! rows . Next ( ) {
t . Errorf ( "Should have returned at least one row" )
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} else {
columns , _ := rows . Columns ( )
if ! reflect . DeepEqual ( columns , [ ] string { "fake" } ) {
t . Errorf ( "Should only contains one column" )
}
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}
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rows . Close ( )
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}
func TestSelectWithArrayInput ( t * testing . T ) {
DB . Save ( & User { Name : "jinzhu" , Age : 42 } )
var user User
DB . Select ( [ ] string { "name" , "age" } ) . Where ( "age = 42 AND name = 'jinzhu'" ) . First ( & user )
if user . Name != "jinzhu" || user . Age != 42 {
t . Errorf ( "Should have selected both age and name" )
}
}
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func TestPluckWithSelect ( t * testing . T ) {
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var (
user = User { Name : "matematik7_pluck_with_select" , Age : 25 }
combinedName = fmt . Sprintf ( "%v%v" , user . Name , user . Age )
combineUserAgeSQL = fmt . Sprintf ( "concat(%v, %v)" , DB . Dialect ( ) . Quote ( "name" ) , DB . Dialect ( ) . Quote ( "age" ) )
)
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if dialect := DB . Dialect ( ) . GetName ( ) ; dialect == "sqlite3" {
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combineUserAgeSQL = fmt . Sprintf ( "(%v || %v)" , DB . Dialect ( ) . Quote ( "name" ) , DB . Dialect ( ) . Quote ( "age" ) )
}
DB . Save ( & user )
selectStr := combineUserAgeSQL + " as user_age"
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var userAges [ ] string
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err := DB . Model ( & User { } ) . Where ( "age = ?" , 25 ) . Select ( selectStr ) . Pluck ( "user_age" , & userAges ) . Error
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if err != nil {
t . Error ( err )
}
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if len ( userAges ) != 1 || userAges [ 0 ] != combinedName {
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t . Errorf ( "Should correctly pluck with select, got: %s" , userAges )
}
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selectStr = combineUserAgeSQL + fmt . Sprintf ( " as %v" , DB . Dialect ( ) . Quote ( "user_age" ) )
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userAges = userAges [ : 0 ]
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err = DB . Model ( & User { } ) . Where ( "age = ?" , 25 ) . Select ( selectStr ) . Pluck ( "user_age" , & userAges ) . Error
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if err != nil {
t . Error ( err )
}
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if len ( userAges ) != 1 || userAges [ 0 ] != combinedName {
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t . Errorf ( "Should correctly pluck with select, got: %s" , userAges )
}
}