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package tests_test
import (
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"fmt"
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"reflect"
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"regexp"
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"sort"
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"strconv"
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"strings"
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"testing"
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"time"
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"gorm.io/gorm"
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. "gorm.io/gorm/utils/tests"
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)
func TestFind ( t * testing . T ) {
var users = [ ] User {
* GetUser ( "find" , Config { } ) ,
* GetUser ( "find" , Config { } ) ,
* GetUser ( "find" , Config { } ) ,
}
if err := DB . Create ( & users ) . Error ; err != nil {
t . Fatalf ( "errors happened when create users: %v" , err )
}
t . Run ( "First" , func ( t * testing . T ) {
var first User
if err := DB . Where ( "name = ?" , "find" ) . First ( & first ) . Error ; err != nil {
t . Errorf ( "errors happened when query first: %v" , err )
} else {
CheckUser ( t , first , users [ 0 ] )
}
} )
t . Run ( "Last" , func ( t * testing . T ) {
var last User
if err := DB . Where ( "name = ?" , "find" ) . Last ( & last ) . Error ; err != nil {
t . Errorf ( "errors happened when query last: %v" , err )
} else {
CheckUser ( t , last , users [ 2 ] )
}
} )
var all [ ] User
if err := DB . Where ( "name = ?" , "find" ) . Find ( & all ) . Error ; err != nil || len ( all ) != 3 {
t . Errorf ( "errors happened when query find: %v, length: %v" , err , len ( all ) )
} else {
for idx , user := range users {
t . Run ( "FindAll#" + strconv . Itoa ( idx + 1 ) , func ( t * testing . T ) {
CheckUser ( t , all [ idx ] , user )
} )
}
}
t . Run ( "FirstMap" , func ( t * testing . T ) {
var first = map [ string ] interface { } { }
if err := DB . Model ( & User { } ) . Where ( "name = ?" , "find" ) . First ( first ) . Error ; err != nil {
t . Errorf ( "errors happened when query first: %v" , err )
} else {
for _ , name := range [ ] string { "Name" , "Age" , "Birthday" } {
t . Run ( name , func ( t * testing . T ) {
dbName := DB . NamingStrategy . ColumnName ( "" , name )
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switch name {
case "Name" :
if _ , ok := first [ dbName ] . ( string ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , first [ dbName ] )
}
case "Age" :
if _ , ok := first [ dbName ] . ( uint ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , first [ dbName ] )
}
case "Birthday" :
if _ , ok := first [ dbName ] . ( * time . Time ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , first [ dbName ] )
}
}
reflectValue := reflect . Indirect ( reflect . ValueOf ( users [ 0 ] ) )
AssertEqual ( t , first [ dbName ] , reflectValue . FieldByName ( name ) . Interface ( ) )
} )
}
}
} )
t . Run ( "FirstMapWithTable" , func ( t * testing . T ) {
var first = map [ string ] interface { } { }
if err := DB . Table ( "users" ) . Where ( "name = ?" , "find" ) . Find ( first ) . Error ; err != nil {
t . Errorf ( "errors happened when query first: %v" , err )
} else {
for _ , name := range [ ] string { "Name" , "Age" , "Birthday" } {
t . Run ( name , func ( t * testing . T ) {
dbName := DB . NamingStrategy . ColumnName ( "" , name )
resultType := reflect . ValueOf ( first [ dbName ] ) . Type ( ) . Name ( )
switch name {
case "Name" :
if ! strings . Contains ( resultType , "string" ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , first [ dbName ] )
}
case "Age" :
if ! strings . Contains ( resultType , "int" ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , first [ dbName ] )
}
case "Birthday" :
if ! strings . Contains ( resultType , "Time" ) && ! ( DB . Dialector . Name ( ) == "sqlite" && strings . Contains ( resultType , "string" ) ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , first [ dbName ] )
}
}
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reflectValue := reflect . Indirect ( reflect . ValueOf ( users [ 0 ] ) )
AssertEqual ( t , first [ dbName ] , reflectValue . FieldByName ( name ) . Interface ( ) )
} )
}
}
} )
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t . Run ( "FirstPtrMap" , func ( t * testing . T ) {
var first = map [ string ] interface { } { }
if err := DB . Model ( & User { } ) . Where ( "name = ?" , "find" ) . First ( & first ) . Error ; err != nil {
t . Errorf ( "errors happened when query first: %v" , err )
} else {
for _ , name := range [ ] string { "Name" , "Age" , "Birthday" } {
t . Run ( name , func ( t * testing . T ) {
dbName := DB . NamingStrategy . ColumnName ( "" , name )
reflectValue := reflect . Indirect ( reflect . ValueOf ( users [ 0 ] ) )
AssertEqual ( t , first [ dbName ] , reflectValue . FieldByName ( name ) . Interface ( ) )
} )
}
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}
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} )
t . Run ( "FirstSliceOfMap" , func ( t * testing . T ) {
var allMap = [ ] map [ string ] interface { } { }
if err := DB . Model ( & User { } ) . Where ( "name = ?" , "find" ) . Find ( & allMap ) . Error ; err != nil {
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t . Errorf ( "errors happened when query find: %v" , err )
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} else {
for idx , user := range users {
t . Run ( "FindAllMap#" + strconv . Itoa ( idx + 1 ) , func ( t * testing . T ) {
for _ , name := range [ ] string { "Name" , "Age" , "Birthday" } {
t . Run ( name , func ( t * testing . T ) {
dbName := DB . NamingStrategy . ColumnName ( "" , name )
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switch name {
case "Name" :
if _ , ok := allMap [ idx ] [ dbName ] . ( string ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , allMap [ idx ] [ dbName ] )
}
case "Age" :
if _ , ok := allMap [ idx ] [ dbName ] . ( uint ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , allMap [ idx ] [ dbName ] )
}
case "Birthday" :
if _ , ok := allMap [ idx ] [ dbName ] . ( * time . Time ) ; ! ok {
t . Errorf ( "invalid data type for %v, got %#v" , dbName , allMap [ idx ] [ dbName ] )
}
}
reflectValue := reflect . Indirect ( reflect . ValueOf ( user ) )
AssertEqual ( t , allMap [ idx ] [ dbName ] , reflectValue . FieldByName ( name ) . Interface ( ) )
} )
}
} )
}
}
} )
t . Run ( "FindSliceOfMapWithTable" , func ( t * testing . T ) {
var allMap = [ ] map [ string ] interface { } { }
if err := DB . Table ( "users" ) . Where ( "name = ?" , "find" ) . Find ( & allMap ) . Error ; err != nil {
t . Errorf ( "errors happened when query find: %v" , err )
} else {
for idx , user := range users {
t . Run ( "FindAllMap#" + strconv . Itoa ( idx + 1 ) , func ( t * testing . T ) {
for _ , name := range [ ] string { "Name" , "Age" , "Birthday" } {
t . Run ( name , func ( t * testing . T ) {
dbName := DB . NamingStrategy . ColumnName ( "" , name )
resultType := reflect . ValueOf ( allMap [ idx ] [ dbName ] ) . Type ( ) . Name ( )
switch name {
case "Name" :
if ! strings . Contains ( resultType , "string" ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , allMap [ idx ] [ dbName ] )
}
case "Age" :
if ! strings . Contains ( resultType , "int" ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , allMap [ idx ] [ dbName ] )
}
case "Birthday" :
if ! strings . Contains ( resultType , "Time" ) && ! ( DB . Dialector . Name ( ) == "sqlite" && strings . Contains ( resultType , "string" ) ) {
t . Errorf ( "invalid data type for %v, got %v %#v" , dbName , resultType , allMap [ idx ] [ dbName ] )
}
}
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reflectValue := reflect . Indirect ( reflect . ValueOf ( user ) )
AssertEqual ( t , allMap [ idx ] [ dbName ] , reflectValue . FieldByName ( name ) . Interface ( ) )
} )
}
} )
}
}
} )
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var models [ ] User
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if err := DB . Where ( "name in (?)" , [ ] string { "find" } ) . Find ( & models ) . Error ; err != nil || len ( models ) != 3 {
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t . Errorf ( "errors happened when query find with in clause: %v, length: %v" , err , len ( models ) )
} else {
for idx , user := range users {
t . Run ( "FindWithInClause#" + strconv . Itoa ( idx + 1 ) , func ( t * testing . T ) {
CheckUser ( t , models [ idx ] , user )
} )
}
}
var none [ ] User
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if err := DB . Where ( "name in (?)" , [ ] string { } ) . Find ( & none ) . Error ; err != nil || len ( none ) != 0 {
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t . Errorf ( "errors happened when query find with in clause and zero length parameter: %v, length: %v" , err , len ( none ) )
}
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}
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func TestQueryWithAssociation ( t * testing . T ) {
user := * GetUser ( "query_with_association" , Config { Account : true , Pets : 2 , Toys : 1 , Company : true , Manager : true , Team : 2 , Languages : 1 , Friends : 3 } )
if err := DB . Create ( & user ) . Error ; err != nil {
t . Fatalf ( "errors happened when create user: %v" , err )
}
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user . CreatedAt = time . Time { }
user . UpdatedAt = time . Time { }
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if err := DB . Where ( & user ) . First ( & User { } ) . Error ; err != nil {
t . Errorf ( "search with struct with association should returns no error, but got %v" , err )
}
if err := DB . Where ( user ) . First ( & User { } ) . Error ; err != nil {
t . Errorf ( "search with struct with association should returns no error, but got %v" , err )
}
}
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func TestFindInBatches ( t * testing . T ) {
var users = [ ] User {
* GetUser ( "find_in_batches" , Config { } ) ,
* GetUser ( "find_in_batches" , Config { } ) ,
* GetUser ( "find_in_batches" , Config { } ) ,
* GetUser ( "find_in_batches" , Config { } ) ,
* GetUser ( "find_in_batches" , Config { } ) ,
* GetUser ( "find_in_batches" , Config { } ) ,
}
DB . Create ( & users )
var (
results [ ] User
totalBatch int
)
if result := DB . Where ( "name = ?" , users [ 0 ] . Name ) . FindInBatches ( & results , 2 , func ( tx * gorm . DB , batch int ) error {
totalBatch += batch
if tx . RowsAffected != 2 {
t . Errorf ( "Incorrect affected rows, expects: 2, got %v" , tx . RowsAffected )
}
if len ( results ) != 2 {
t . Errorf ( "Incorrect users length, expects: 2, got %v" , len ( results ) )
}
return nil
} ) ; result . Error != nil || result . RowsAffected != 6 {
t . Errorf ( "Failed to batch find, got error %v, rows affected: %v" , result . Error , result . RowsAffected )
}
if totalBatch != 6 {
t . Errorf ( "incorrect total batch, expects: %v, got %v" , 6 , totalBatch )
}
}
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func TestFillSmallerStruct ( t * testing . T ) {
user := User { Name : "SmallerUser" , Age : 100 }
DB . Save ( & user )
type SimpleUser struct {
ID int64
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Name string
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UpdatedAt time . Time
CreatedAt time . Time
}
var simpleUser SimpleUser
if err := DB . Table ( "users" ) . Where ( "name = ?" , user . Name ) . First ( & simpleUser ) . Error ; err != nil {
t . Fatalf ( "Failed to query smaller user, got error %v" , err )
}
AssertObjEqual ( t , user , simpleUser , "Name" , "ID" , "UpdatedAt" , "CreatedAt" )
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var simpleUser2 SimpleUser
if err := DB . Model ( & User { } ) . Select ( "id" ) . First ( & simpleUser2 , user . ID ) . Error ; err != nil {
t . Fatalf ( "Failed to query smaller user, got error %v" , err )
}
AssertObjEqual ( t , user , simpleUser2 , "ID" )
var simpleUsers [ ] SimpleUser
if err := DB . Model ( & User { } ) . Select ( "id" ) . Find ( & simpleUsers , user . ID ) . Error ; err != nil || len ( simpleUsers ) != 1 {
t . Fatalf ( "Failed to query smaller user, got error %v" , err )
}
AssertObjEqual ( t , user , simpleUsers [ 0 ] , "ID" )
result := DB . Session ( & gorm . Session { DryRun : true } ) . Model ( & User { } ) . Find ( & simpleUsers , user . ID )
if ! regexp . MustCompile ( "SELECT .*id.*name.*updated_at.*created_at.* FROM .*users" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "SQL should include selected names, but got %v" , result . Statement . SQL . String ( ) )
}
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result = DB . Session ( & gorm . Session { DryRun : true } ) . Model ( & User { } ) . Find ( & User { } , user . ID )
if regexp . MustCompile ( "SELECT .*name.* FROM .*users" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "SQL should not include selected names, but got %v" , result . Statement . SQL . String ( ) )
}
result = DB . Session ( & gorm . Session { DryRun : true } ) . Model ( & User { } ) . Find ( & [ ] User { } , user . ID )
if regexp . MustCompile ( "SELECT .*name.* FROM .*users" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "SQL should not include selected names, but got %v" , result . Statement . SQL . String ( ) )
}
result = DB . Session ( & gorm . Session { DryRun : true } ) . Model ( & User { } ) . Find ( & [ ] * User { } , user . ID )
if regexp . MustCompile ( "SELECT .*name.* FROM .*users" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "SQL should not include selected names, but got %v" , result . Statement . SQL . String ( ) )
}
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}
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func TestNot ( t * testing . T ) {
dryDB := DB . Session ( & gorm . Session { DryRun : true } )
result := dryDB . Not ( map [ string ] interface { } { "name" : "jinzhu" } ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*name.* <> .+" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Where ( "name = ?" , "jinzhu1" ) . Not ( "name = ?" , "jinzhu2" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*name.* = .+ AND NOT.*name.* = .+" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Not ( "name = ?" , "jinzhu" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE NOT.*name.* = .+" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Not ( map [ string ] interface { } { "name" : [ ] string { "jinzhu" , "jinzhu 2" } } ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*name.* NOT IN \\(.+,.+\\)" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Not ( [ ] int64 { 1 , 2 } ) . First ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*id.* NOT IN \\(.+,.+\\)" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Not ( [ ] int64 { } ) . First ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .users.\\..deleted_at. IS NULL ORDER BY" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Not ( User { Name : "jinzhu" , Age : 18 } ) . First ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*users.*..*name.* <> .+ AND .*users.*..*age.* <> .+" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build NOT condition, but got %v" , result . Statement . SQL . String ( ) )
}
}
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func TestOr ( t * testing . T ) {
dryDB := DB . Session ( & gorm . Session { DryRun : true } )
result := dryDB . Where ( "role = ?" , "admin" ) . Or ( "role = ?" , "super_admin" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*role.* = .+ OR .*role.* = .+" ) . MatchString ( result . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build OR condition, but got %v" , result . Statement . SQL . String ( ) )
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}
result = dryDB . Where ( "name = ?" , "jinzhu" ) . Or ( User { Name : "jinzhu 2" , Age : 18 } ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*name.* = .+ OR \\(.*name.* AND .*age.*\\)" ) . MatchString ( result . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build OR condition, but got %v" , result . Statement . SQL . String ( ) )
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}
result = dryDB . Where ( "name = ?" , "jinzhu" ) . Or ( map [ string ] interface { } { "name" : "jinzhu 2" , "age" : 18 } ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* WHERE .*name.* = .+ OR \\(.*age.* AND .*name.*\\)" ) . MatchString ( result . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build OR condition, but got %v" , result . Statement . SQL . String ( ) )
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}
}
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func TestPluck ( t * testing . T ) {
users := [ ] * User {
GetUser ( "pluck-user1" , Config { } ) ,
GetUser ( "pluck-user2" , Config { } ) ,
GetUser ( "pluck-user3" , Config { } ) ,
}
DB . Create ( & users )
var names [ ] string
if err := DB . Model ( User { } ) . Where ( "name like ?" , "pluck-user%" ) . Order ( "name" ) . Pluck ( "name" , & names ) . Error ; err != nil {
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t . Errorf ( "got error when pluck name: %v" , err )
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}
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var names2 [ ] string
if err := DB . Model ( User { } ) . Where ( "name like ?" , "pluck-user%" ) . Order ( "name desc" ) . Pluck ( "name" , & names2 ) . Error ; err != nil {
t . Errorf ( "got error when pluck name: %v" , err )
}
AssertEqual ( t , names , sort . Reverse ( sort . StringSlice ( names2 ) ) )
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var ids [ ] int
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if err := DB . Model ( User { } ) . Where ( "name like ?" , "pluck-user%" ) . Pluck ( "id" , & ids ) . Error ; err != nil {
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t . Errorf ( "got error when pluck id: %v" , err )
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}
for idx , name := range names {
if name != users [ idx ] . Name {
t . Errorf ( "Unexpected result on pluck name, got %+v" , names )
}
}
for idx , id := range ids {
if int ( id ) != int ( users [ idx ] . ID ) {
t . Errorf ( "Unexpected result on pluck id, got %+v" , ids )
}
}
}
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func TestSelect ( t * testing . T ) {
user := User { Name : "SelectUser1" }
DB . Save ( & user )
var result User
DB . Where ( "name = ?" , user . Name ) . Select ( "name" ) . Find ( & result )
if result . ID != 0 {
t . Errorf ( "Should not have ID because only selected name, %+v" , result . ID )
}
if user . Name != result . Name {
t . Errorf ( "Should have user Name when selected it" )
}
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dryDB := DB . Session ( & gorm . Session { DryRun : true } )
r := dryDB . Select ( "name" , "age" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT .*name.*,.*age.* FROM .*users.*" ) . MatchString ( r . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build Select with strings, but got %v" , r . Statement . SQL . String ( ) )
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}
r = dryDB . Select ( [ ] string { "name" , "age" } ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT .*name.*,.*age.* FROM .*users.*" ) . MatchString ( r . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build Select with slice, but got %v" , r . Statement . SQL . String ( ) )
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}
r = dryDB . Table ( "users" ) . Select ( "COALESCE(age,?)" , 42 ) . Find ( & User { } )
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if ! regexp . MustCompile ( ` SELECT COALESCE\(age,.*\) FROM .*users.* ` ) . MatchString ( r . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build Select with func, but got %v" , r . Statement . SQL . String ( ) )
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}
// SELECT COALESCE(age,'42') FROM users;
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r = dryDB . Select ( "u.*" ) . Table ( "users as u" ) . First ( & User { } , user . ID )
if ! regexp . MustCompile ( ` SELECT u\.\* FROM .*users.* ` ) . MatchString ( r . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build Select with u.*, but got %v" , r . Statement . SQL . String ( ) )
}
r = dryDB . Select ( "count(*)" ) . Select ( "u.*" ) . Table ( "users as u" ) . First ( & User { } , user . ID )
if ! regexp . MustCompile ( ` SELECT u\.\* FROM .*users.* ` ) . MatchString ( r . Statement . SQL . String ( ) ) {
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t . Fatalf ( "Build Select with u.*, but got %v" , r . Statement . SQL . String ( ) )
}
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}
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func TestOmit ( t * testing . T ) {
user := User { Name : "OmitUser1" , Age : 20 }
DB . Save ( & user )
var result User
DB . Where ( "name = ?" , user . Name ) . Omit ( "name" ) . Find ( & result )
if result . ID == 0 {
t . Errorf ( "Should not have ID because only selected name, %+v" , result . ID )
}
if result . Name != "" || result . Age != 20 {
t . Errorf ( "User Name should be omitted, got %v, Age should be ok, got %v" , result . Name , result . Age )
}
}
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func TestPluckWithSelect ( t * testing . T ) {
users := [ ] User {
{ Name : "pluck_with_select_1" , Age : 25 } ,
{ Name : "pluck_with_select_2" , Age : 26 } ,
}
DB . Create ( & users )
var userAges [ ] int
err := DB . Model ( & User { } ) . Where ( "name like ?" , "pluck_with_select%" ) . Select ( "age + 1 as user_age" ) . Pluck ( "user_age" , & userAges ) . Error
if err != nil {
t . Fatalf ( "got error when pluck user_age: %v" , err )
}
sort . Ints ( userAges )
AssertEqual ( t , userAges , [ ] int { 26 , 27 } )
}
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func TestSelectWithVariables ( t * testing . T ) {
DB . Save ( & User { Name : "select_with_variables" } )
rows , _ := DB . Table ( "users" ) . Where ( "name = ?" , "select_with_variables" ) . Select ( "? as fake" , gorm . Expr ( "name" ) ) . Rows ( )
if ! rows . Next ( ) {
t . Errorf ( "Should have returned at least one row" )
} else {
columns , _ := rows . Columns ( )
AssertEqual ( t , columns , [ ] string { "fake" } )
}
rows . Close ( )
}
func TestSelectWithArrayInput ( t * testing . T ) {
DB . Save ( & User { Name : "select_with_array" , Age : 42 } )
var user User
DB . Select ( [ ] string { "name" , "age" } ) . Where ( "age = 42 AND name = ?" , "select_with_array" ) . First ( & user )
if user . Name != "select_with_array" || user . Age != 42 {
t . Errorf ( "Should have selected both age and name" )
}
}
func TestCustomizedTypePrimaryKey ( t * testing . T ) {
type ID uint
type CustomizedTypePrimaryKey struct {
ID ID
Name string
}
DB . Migrator ( ) . DropTable ( & CustomizedTypePrimaryKey { } )
if err := DB . AutoMigrate ( & CustomizedTypePrimaryKey { } ) ; err != nil {
t . Fatalf ( "failed to migrate, got error %v" , err )
}
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 ( "No error should returns, but got %v" , err )
}
AssertEqual ( t , p , p2 )
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 )
}
AssertEqual ( t , p , p2 )
}
func TestStringPrimaryKeyForNumericValueStartingWithZero ( t * testing . T ) {
type AddressByZipCode struct {
ZipCode string ` gorm:"primary_key" `
Address string
}
DB . Migrator ( ) . DropTable ( & AddressByZipCode { } )
if err := DB . AutoMigrate ( & AddressByZipCode { } ) ; err != nil {
t . Fatalf ( "failed to migrate, got error %v" , err )
}
address := AddressByZipCode { ZipCode : "00501" , Address : "Holtsville" }
DB . Create ( & address )
var result AddressByZipCode
DB . First ( & result , "00501" )
AssertEqual ( t , result , address )
}
func TestSearchWithEmptyChain ( t * testing . T ) {
user := User { Name : "search_with_empty_chain" , Age : 1 }
DB . Create ( & user )
var result User
if DB . Where ( "" ) . Where ( "" ) . First ( & result ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty strings" )
}
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result = User { }
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if DB . Where ( & User { } ) . Where ( "name = ?" , user . Name ) . First ( & result ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty struct" )
}
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result = User { }
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if DB . Where ( map [ string ] interface { } { } ) . Where ( "name = ?" , user . Name ) . First ( & result ) . Error != nil {
t . Errorf ( "Should not raise any error if searching with empty map" )
}
}
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func TestOrder ( t * testing . T ) {
dryDB := DB . Session ( & gorm . Session { DryRun : true } )
result := dryDB . Order ( "age desc, name" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* ORDER BY age desc, name" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build Order condition, but got %v" , result . Statement . SQL . String ( ) )
}
result = dryDB . Order ( "age desc" ) . Order ( "name" ) . Find ( & User { } )
if ! regexp . MustCompile ( "SELECT \\* FROM .*users.* ORDER BY age desc,name" ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Fatalf ( "Build Order condition, but got %v" , result . Statement . SQL . String ( ) )
}
}
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func TestLimit ( t * testing . T ) {
users := [ ] User {
{ Name : "LimitUser1" , Age : 1 } ,
{ Name : "LimitUser2" , Age : 10 } ,
{ Name : "LimitUser3" , Age : 20 } ,
{ Name : "LimitUser4" , Age : 10 } ,
{ Name : "LimitUser5" , Age : 20 } ,
}
DB . Create ( & users )
var users1 , users2 , users3 [ ] User
DB . Order ( "age desc" ) . Limit ( 3 ) . Find ( & users1 ) . Limit ( 5 ) . Find ( & users2 ) . Limit ( - 1 ) . Find ( & users3 )
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 ++ {
DB . Save ( & User { Name : fmt . Sprintf ( "OffsetUser%v" , i ) } )
}
var users1 , users2 , users3 , users4 [ ] User
DB . Limit ( 100 ) . Where ( "name like ?" , "OffsetUser%" ) . Order ( "age desc" ) . Find ( & users1 ) . Offset ( 3 ) . Find ( & users2 ) . Offset ( 5 ) . Find ( & users3 ) . Offset ( - 1 ) . Find ( & users4 )
if ( len ( users1 ) != len ( users4 ) ) || ( len ( users1 ) - len ( users2 ) != 3 ) || ( len ( users1 ) - len ( users3 ) != 5 ) {
t . Errorf ( "Offset should work" )
}
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DB . Where ( "name like ?" , "OffsetUser%" ) . Order ( "age desc" ) . Find ( & users1 ) . Offset ( 3 ) . Find ( & users2 ) . Offset ( 5 ) . Find ( & users3 ) . Offset ( - 1 ) . Find ( & users4 )
if ( len ( users1 ) != len ( users4 ) ) || ( len ( users1 ) - len ( users2 ) != 3 ) || ( len ( users1 ) - len ( users3 ) != 5 ) {
t . Errorf ( "Offset should work without limit." )
}
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}
func TestSearchWithMap ( t * testing . T ) {
users := [ ] User {
* GetUser ( "map_search_user1" , Config { } ) ,
* GetUser ( "map_search_user2" , Config { } ) ,
* GetUser ( "map_search_user3" , Config { } ) ,
* GetUser ( "map_search_user4" , Config { Company : true } ) ,
}
DB . Create ( & users )
var user User
DB . First ( & user , map [ string ] interface { } { "name" : users [ 0 ] . Name } )
CheckUser ( t , user , users [ 0 ] )
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user = User { }
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DB . Where ( map [ string ] interface { } { "name" : users [ 1 ] . Name } ) . First ( & user )
CheckUser ( t , user , users [ 1 ] )
var results [ ] User
DB . Where ( map [ string ] interface { } { "name" : users [ 2 ] . Name } ) . Find ( & results )
if len ( results ) != 1 {
t . Fatalf ( "Search all records with inline map" )
}
CheckUser ( t , results [ 0 ] , users [ 2 ] )
var results2 [ ] User
DB . Find ( & results2 , map [ string ] interface { } { "name" : users [ 3 ] . Name , "company_id" : nil } )
if len ( results2 ) != 0 {
t . Errorf ( "Search all records with inline map containing null value finding 0 records" )
}
DB . Find ( & results2 , map [ string ] interface { } { "name" : users [ 0 ] . Name , "company_id" : nil } )
if len ( results2 ) != 1 {
t . Errorf ( "Search all records with inline map containing null value finding 1 record" )
}
DB . Find ( & results2 , map [ string ] interface { } { "name" : users [ 3 ] . Name , "company_id" : users [ 3 ] . CompanyID } )
if len ( results2 ) != 1 {
t . Errorf ( "Search all records with inline multiple value map" )
}
}
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func TestSubQuery ( t * testing . T ) {
users := [ ] User {
{ Name : "subquery_1" , Age : 10 } ,
{ Name : "subquery_2" , Age : 20 } ,
{ Name : "subquery_3" , Age : 30 } ,
{ Name : "subquery_4" , Age : 40 } ,
}
DB . Create ( & users )
if err := DB . Select ( "*" ) . Where ( "name IN (?)" , DB . Select ( "name" ) . Table ( "users" ) . Where ( "name LIKE ?" , "subquery_%" ) ) . Find ( & users ) . Error ; err != nil {
t . Fatalf ( "got error: %v" , err )
}
if len ( users ) != 4 {
t . Errorf ( "Four users should be found, instead found %d" , len ( users ) )
}
DB . Select ( "*" ) . Where ( "name LIKE ?" , "subquery%" ) . Where ( "age >= (?)" , DB .
Select ( "AVG(age)" ) . Table ( "users" ) . Where ( "name LIKE ?" , "subquery%" ) ) . Find ( & users )
if len ( users ) != 2 {
t . Errorf ( "Two users should be found, instead found %d" , len ( users ) )
}
}
func TestSubQueryWithRaw ( t * testing . T ) {
users := [ ] User {
{ Name : "subquery_raw_1" , Age : 10 } ,
{ Name : "subquery_raw_2" , Age : 20 } ,
{ Name : "subquery_raw_3" , Age : 30 } ,
{ Name : "subquery_raw_4" , Age : 40 } ,
}
DB . Create ( & users )
var count int64
err := DB . Raw ( "select count(*) from (?) tmp" ,
DB . Table ( "users" ) .
Select ( "name" ) .
Where ( "age >= ? and name in (?)" , 20 , [ ] string { "subquery_raw_1" , "subquery_raw_3" } ) .
Group ( "name" ) ,
) . Count ( & count ) . Error
if err != nil {
t . Errorf ( "Expected to get no errors, but got %v" , err )
}
if count != 1 {
t . Errorf ( "Row count must be 1, instead got %d" , count )
}
err = DB . Raw ( "select count(*) from (?) tmp" ,
DB . Table ( "users" ) .
Select ( "name" ) .
Where ( "name LIKE ?" , "subquery_raw%" ) .
Not ( "age <= ?" , 10 ) . Not ( "name IN (?)" , [ ] string { "subquery_raw_1" , "subquery_raw_3" } ) .
Group ( "name" ) ,
) . Count ( & count ) . Error
if err != nil {
t . Errorf ( "Expected to get no errors, but got %v" , err )
}
if count != 2 {
t . Errorf ( "Row count must be 2, instead got %d" , count )
}
}
func TestSubQueryWithHaving ( t * testing . T ) {
users := [ ] User {
{ Name : "subquery_having_1" , Age : 10 } ,
{ Name : "subquery_having_2" , Age : 20 } ,
{ Name : "subquery_having_3" , Age : 30 } ,
{ Name : "subquery_having_4" , Age : 40 } ,
}
DB . Create ( & users )
var results [ ] User
DB . Select ( "AVG(age) as avgage" ) . Where ( "name LIKE ?" , "subquery_having%" ) . Group ( "name" ) . Having ( "AVG(age) > (?)" , DB .
Select ( "AVG(age)" ) . Where ( "name LIKE ?" , "subquery_having%" ) . Table ( "users" ) ) . Find ( & results )
if len ( results ) != 2 {
t . Errorf ( "Two user group should be found, instead found %d" , len ( results ) )
}
}
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func TestScanNullValue ( t * testing . T ) {
user := GetUser ( "scan_null_value" , Config { } )
DB . Create ( & user )
if err := DB . Model ( & user ) . Update ( "age" , nil ) . Error ; err != nil {
t . Fatalf ( "failed to update column age for struct, got error %v" , err )
}
var result User
if err := DB . First ( & result , "id = ?" , user . ID ) . Error ; err != nil {
t . Fatalf ( "failed to query struct data with null age, got error %v" , err )
}
AssertEqual ( t , result , user )
users := [ ] User {
* GetUser ( "scan_null_value_for_slice_1" , Config { } ) ,
* GetUser ( "scan_null_value_for_slice_2" , Config { } ) ,
* GetUser ( "scan_null_value_for_slice_3" , Config { } ) ,
}
DB . Create ( & users )
if err := DB . Model ( & users [ 0 ] ) . Update ( "age" , nil ) . Error ; err != nil {
t . Fatalf ( "failed to update column age for struct, got error %v" , err )
}
var results [ ] User
if err := DB . Find ( & results , "name like ?" , "scan_null_value_for_slice%" ) . Error ; err != nil {
t . Fatalf ( "failed to query slice data with null age, got error %v" , err )
}
}
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func TestQueryWithTableAndConditions ( t * testing . T ) {
result := DB . Session ( & gorm . Session { DryRun : true } ) . Table ( "user" ) . Find ( & User { } , User { Name : "jinzhu" } )
if ! regexp . MustCompile ( ` SELECT \* FROM .user. WHERE .user.\..name. = .+ AND .user.\..deleted_at. IS NULL ` ) . MatchString ( result . Statement . SQL . String ( ) ) {
t . Errorf ( "invalid query SQL, got %v" , result . Statement . SQL . String ( ) )
}
}