package schema_test import ( "sync" "testing" "gorm.io/gorm" "gorm.io/gorm/schema" ) func checkStructRelation(t *testing.T, data interface{}, relations ...Relation) { if s, err := schema.Parse(data, &sync.Map{}, schema.NamingStrategy{}); err != nil { t.Errorf("Failed to parse schema, got error %v", err) } else { for _, rel := range relations { checkSchemaRelation(t, s, rel) } } } func TestBelongsToOverrideForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string } type User struct { gorm.Model Profile Profile `gorm:"ForeignKey:ProfileRefer"` ProfileRefer int } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.BelongsTo, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ID", "Profile", "ProfileRefer", "User", "", false}}, }) } func TestBelongsToOverrideReferences(t *testing.T) { type Profile struct { gorm.Model Refer string Name string } type User struct { gorm.Model Profile Profile `gorm:"ForeignKey:ProfileID;References:Refer"` ProfileID int } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.BelongsTo, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "Profile", "ProfileID", "User", "", false}}, }) } func TestBelongsToWithOnlyReferences(t *testing.T) { type Profile struct { gorm.Model Refer string Name string } type User struct { gorm.Model Profile Profile `gorm:"References:Refer"` ProfileRefer int } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.BelongsTo, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "Profile", "ProfileRefer", "User", "", false}}, }) } func TestBelongsToWithOnlyReferences2(t *testing.T) { type Profile struct { gorm.Model Refer string Name string } type User struct { gorm.Model Profile Profile `gorm:"References:Refer"` ProfileID int } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.BelongsTo, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "Profile", "ProfileID", "User", "", false}}, }) } func TestSelfReferentialBelongsTo(t *testing.T) { type User struct { ID int32 `gorm:"primaryKey"` Name string CreatorID *int32 Creator *User } checkStructRelation(t, &User{}, Relation{ Name: "Creator", Type: schema.BelongsTo, Schema: "User", FieldSchema: "User", References: []Reference{{"ID", "User", "CreatorID", "User", "", false}}, }) } func TestSelfReferentialBelongsToOverrideReferences(t *testing.T) { type User struct { ID int32 `gorm:"primaryKey"` Name string CreatedBy *int32 Creator *User `gorm:"foreignKey:CreatedBy;references:ID"` } checkStructRelation(t, &User{}, Relation{ Name: "Creator", Type: schema.BelongsTo, Schema: "User", FieldSchema: "User", References: []Reference{{"ID", "User", "CreatedBy", "User", "", false}}, }) } func TestHasOneOverrideForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profile Profile `gorm:"ForeignKey:UserRefer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ID", "User", "UserRefer", "Profile", "", true}}, }) } func TestHasOneOverrideReferences(t *testing.T) { type Profile struct { gorm.Model Name string UserID uint } type User struct { gorm.Model Refer string Profile Profile `gorm:"ForeignKey:UserID;References:Refer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "User", "UserID", "Profile", "", true}}, }) } func TestHasOneOverrideReferences2(t *testing.T) { type Profile struct { gorm.Model Name string } type User struct { gorm.Model ProfileID uint `gorm:"column:profile_id"` Profile *Profile `gorm:"foreignKey:ID;references:ProfileID"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ProfileID", "User", "ID", "Profile", "", true}}, }) } func TestHasOneWithOnlyReferences(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Refer string Profile Profile `gorm:"References:Refer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "User", "UserRefer", "Profile", "", true}}, }) } func TestHasOneWithOnlyReferences2(t *testing.T) { type Profile struct { gorm.Model Name string UserID uint } type User struct { gorm.Model Refer string Profile Profile `gorm:"References:Refer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "User", "UserID", "Profile", "", true}}, }) } func TestHasManyOverrideForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profile []Profile `gorm:"ForeignKey:UserRefer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasMany, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ID", "User", "UserRefer", "Profile", "", true}}, }) } func TestHasManyOverrideReferences(t *testing.T) { type Profile struct { gorm.Model Name string UserID uint } type User struct { gorm.Model Refer string Profile []Profile `gorm:"ForeignKey:UserID;References:Refer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasMany, Schema: "User", FieldSchema: "Profile", References: []Reference{{"Refer", "User", "UserID", "Profile", "", true}}, }) } func TestMany2ManyOverrideForeignKeyAndReferences(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profiles []Profile `gorm:"many2many:user_profiles;ForeignKey:Refer;JoinForeignKey:UserReferID;References:UserRefer;JoinReferences:ProfileRefer"` Profiles2 []Profile `gorm:"many2many:user_profiles2;ForeignKey:refer;JoinForeignKey:user_refer_id;References:user_refer;JoinReferences:profile_refer"` Refer uint } checkStructRelation(t, &User{}, Relation{ Name: "Profiles", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profiles", Table: "user_profiles"}, References: []Reference{ {"Refer", "User", "UserReferID", "user_profiles", "", true}, {"UserRefer", "Profile", "ProfileRefer", "user_profiles", "", false}, }, }, Relation{ Name: "Profiles2", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profiles2", Table: "user_profiles2"}, References: []Reference{ {"Refer", "User", "User_refer_id", "user_profiles2", "", true}, {"UserRefer", "Profile", "Profile_refer", "user_profiles2", "", false}, }, }) } func TestMany2ManyOverrideForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profiles []Profile `gorm:"many2many:user_profiles;ForeignKey:Refer;References:UserRefer"` Refer uint } checkStructRelation(t, &User{}, Relation{ Name: "Profiles", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profiles", Table: "user_profiles"}, References: []Reference{ {"Refer", "User", "UserRefer", "user_profiles", "", true}, {"UserRefer", "Profile", "ProfileUserRefer", "user_profiles", "", false}, }, }) } func TestMany2ManySharedForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string Kind string ProfileRefer uint } type User struct { gorm.Model Profiles []Profile `gorm:"many2many:user_profiles;foreignKey:Refer,Kind;joinForeignKey:UserRefer,Kind;References:ProfileRefer,Kind;joinReferences:ProfileR,Kind"` Kind string Refer uint } checkStructRelation(t, &User{}, Relation{ Name: "Profiles", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profiles", Table: "user_profiles"}, References: []Reference{ {"Refer", "User", "UserRefer", "user_profiles", "", true}, {"Kind", "User", "Kind", "user_profiles", "", true}, {"ProfileRefer", "Profile", "ProfileR", "user_profiles", "", false}, {"Kind", "Profile", "Kind", "user_profiles", "", false}, }, }) } func TestMany2ManyOverrideJoinForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profiles []Profile `gorm:"many2many:user_profile;JoinForeignKey:UserReferID;JoinReferences:ProfileRefer"` Refer uint } checkStructRelation(t, &User{}, Relation{ Name: "Profiles", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profile", Table: "user_profile"}, References: []Reference{ {"ID", "User", "UserReferID", "user_profile", "", true}, {"ID", "Profile", "ProfileRefer", "user_profile", "", false}, }, }) } func TestBuildReadonlyMany2ManyRelation(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model Profiles []Profile `gorm:"->;many2many:user_profile;JoinForeignKey:UserReferID;JoinReferences:ProfileRefer"` Refer uint } checkStructRelation(t, &User{}, Relation{ Name: "Profiles", Type: schema.Many2Many, Schema: "User", FieldSchema: "Profile", JoinTable: JoinTable{Name: "user_profile", Table: "user_profile"}, References: []Reference{ {"ID", "User", "UserReferID", "user_profile", "", true}, {"ID", "Profile", "ProfileRefer", "user_profile", "", false}, }, }) } func TestMany2ManyWithMultiPrimaryKeys(t *testing.T) { type Tag struct { ID uint `gorm:"primary_key"` Locale string `gorm:"primary_key"` Value string } type Blog struct { ID uint `gorm:"primary_key"` Locale string `gorm:"primary_key"` Subject string Body string Tags []Tag `gorm:"many2many:blog_tags;"` SharedTags []Tag `gorm:"many2many:shared_blog_tags;ForeignKey:id;References:id"` LocaleTags []Tag `gorm:"many2many:locale_blog_tags;ForeignKey:id,locale;References:id"` } checkStructRelation(t, &Blog{}, Relation{ Name: "Tags", Type: schema.Many2Many, Schema: "Blog", FieldSchema: "Tag", JoinTable: JoinTable{Name: "blog_tags", Table: "blog_tags"}, References: []Reference{ {"ID", "Blog", "BlogID", "blog_tags", "", true}, {"Locale", "Blog", "BlogLocale", "blog_tags", "", true}, {"ID", "Tag", "TagID", "blog_tags", "", false}, {"Locale", "Tag", "TagLocale", "blog_tags", "", false}, }, }, Relation{ Name: "SharedTags", Type: schema.Many2Many, Schema: "Blog", FieldSchema: "Tag", JoinTable: JoinTable{Name: "shared_blog_tags", Table: "shared_blog_tags"}, References: []Reference{ {"ID", "Blog", "BlogID", "shared_blog_tags", "", true}, {"ID", "Tag", "TagID", "shared_blog_tags", "", false}, }, }, Relation{ Name: "LocaleTags", Type: schema.Many2Many, Schema: "Blog", FieldSchema: "Tag", JoinTable: JoinTable{Name: "locale_blog_tags", Table: "locale_blog_tags"}, References: []Reference{ {"ID", "Blog", "BlogID", "locale_blog_tags", "", true}, {"Locale", "Blog", "BlogLocale", "locale_blog_tags", "", true}, {"ID", "Tag", "TagID", "locale_blog_tags", "", false}, }, }, ) } func TestMultipleMany2Many(t *testing.T) { type Thing struct { ID int } type Person struct { ID int Likes []Thing `gorm:"many2many:likes"` Dislikes []Thing `gorm:"many2many:dislikes"` } checkStructRelation(t, &Person{}, Relation{ Name: "Likes", Type: schema.Many2Many, Schema: "Person", FieldSchema: "Thing", JoinTable: JoinTable{Name: "likes", Table: "likes"}, References: []Reference{ {"ID", "Person", "PersonID", "likes", "", true}, {"ID", "Thing", "ThingID", "likes", "", false}, }, }, Relation{ Name: "Dislikes", Type: schema.Many2Many, Schema: "Person", FieldSchema: "Thing", JoinTable: JoinTable{Name: "dislikes", Table: "dislikes"}, References: []Reference{ {"ID", "Person", "PersonID", "dislikes", "", true}, {"ID", "Thing", "ThingID", "dislikes", "", false}, }, }, ) } func TestSelfReferentialMany2Many(t *testing.T) { type User struct { ID int32 `gorm:"primaryKey"` Name string CreatedBy int32 Creators []User `gorm:"foreignKey:CreatedBy"` AnotherPro interface{} `gorm:"-"` } checkStructRelation(t, &User{}, Relation{ Name: "Creators", Type: schema.HasMany, Schema: "User", FieldSchema: "User", References: []Reference{{"ID", "User", "CreatedBy", "User", "", true}}, }) user, err := schema.Parse(&User{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("failed to parse schema") } relSchema := user.Relationships.Relations["Creators"].FieldSchema if user != relSchema { t.Fatalf("schema should be same, expects %p but got %p", user, relSchema) } } type CreatedByModel struct { CreatedByID uint CreatedBy *CreatedUser } type CreatedUser struct { gorm.Model CreatedByModel } func TestEmbeddedRelation(t *testing.T) { checkStructRelation(t, &CreatedUser{}, Relation{ Name: "CreatedBy", Type: schema.BelongsTo, Schema: "CreatedUser", FieldSchema: "CreatedUser", References: []Reference{ {"ID", "CreatedUser", "CreatedByID", "CreatedUser", "", false}, }, }) userSchema, err := schema.Parse(&CreatedUser{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("failed to parse schema, got error %v", err) } if len(userSchema.Relationships.Relations) != 1 { t.Fatalf("expects 1 relations, but got %v", len(userSchema.Relationships.Relations)) } if createdByRel, ok := userSchema.Relationships.Relations["CreatedBy"]; ok { if createdByRel.FieldSchema != userSchema { t.Fatalf("expects same field schema, but got new %p, old %p", createdByRel.FieldSchema, userSchema) } } else { t.Fatalf("expects created by relations, but not found") } } func TestEmbeddedHas(t *testing.T) { type Toy struct { ID int Name string OwnerID int OwnerType string } type User struct { ID int Cat struct { Name string Toy Toy `gorm:"polymorphic:Owner;"` Toys []Toy `gorm:"polymorphic:Owner;"` } `gorm:"embedded;embeddedPrefix:cat_"` Dog struct { ID int Name string UserID int Toy Toy `gorm:"polymorphic:Owner;"` Toys []Toy `gorm:"polymorphic:Owner;"` } Toys []Toy `gorm:"polymorphic:Owner;"` } s, err := schema.Parse(&User{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toy": { Name: "Toy", Type: schema.HasOne, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "OwnerID", Type: "OwnerType", Value: "users"}, References: []Reference{ {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, "Toys": { Name: "Toys", Type: schema.HasMany, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "OwnerID", Type: "OwnerType", Value: "users"}, References: []Reference{ {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) } func TestPolymorphic(t *testing.T) { t.Run("has one", func(t *testing.T) { type Toy struct { ID int Name string OwnerID int OwnerType string } type Cat struct { ID int Name string Toy Toy `gorm:"polymorphic:Owner;"` } s, err := schema.Parse(&Cat{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toy": { Name: "Toy", Type: schema.HasOne, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "OwnerID", Type: "OwnerType", Value: "users"}, References: []Reference{ {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) }) t.Run("has one with custom polymorphic type and id", func(t *testing.T) { type Toy struct { ID int Name string RefId int Type string } type Cat struct { ID int Name string Toy Toy `gorm:"polymorphic:Owner;polymorphicType:Type;polymorphicId:RefId"` } s, err := schema.Parse(&Cat{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toy": { Name: "Toy", Type: schema.HasOne, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "ref_id", Type: "Type", Value: "users"}, References: []Reference{ {ForeignKey: "Type", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) }) t.Run("has one with only polymorphic type", func(t *testing.T) { type Toy struct { ID int Name string OwnerID int Type string } type Cat struct { ID int Name string Toy Toy `gorm:"polymorphic:Owner;polymorphicType:Type"` } s, err := schema.Parse(&Cat{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toy": { Name: "Toy", Type: schema.HasOne, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "owner_id", Type: "Type", Value: "users"}, References: []Reference{ {ForeignKey: "Type", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) }) t.Run("has many", func(t *testing.T) { type Toy struct { ID int Name string OwnerID int OwnerType string } type Cat struct { ID int Name string Toys []Toy `gorm:"polymorphic:Owner;"` } s, err := schema.Parse(&Cat{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toys": { Name: "Toys", Type: schema.HasMany, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "OwnerID", Type: "OwnerType", Value: "users"}, References: []Reference{ {ForeignKey: "OwnerType", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) }) t.Run("has many with custom polymorphic type and id", func(t *testing.T) { type Toy struct { ID int Name string RefId int Type string } type Cat struct { ID int Name string Toys []Toy `gorm:"polymorphicType:Type;polymorphicId:RefId"` } s, err := schema.Parse(&Cat{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Fatalf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "Cat": { Relations: map[string]Relation{ "Toys": { Name: "Toys", Type: schema.HasMany, Schema: "User", FieldSchema: "Toy", Polymorphic: Polymorphic{ID: "ref_id", Type: "Type", Value: "users"}, References: []Reference{ {ForeignKey: "Type", ForeignSchema: "Toy", PrimaryValue: "users"}, }, }, }, }, }) }) } func TestEmbeddedBelongsTo(t *testing.T) { type Country struct { ID int `gorm:"primaryKey"` Name string } type Address struct { CountryID int Country Country } type NestedAddress struct { Address } type Org struct { ID int PostalAddress Address `gorm:"embedded;embeddedPrefix:postal_address_"` VisitingAddress Address `gorm:"embedded;embeddedPrefix:visiting_address_"` AddressID int Address struct { ID int Address } NestedAddress *NestedAddress `gorm:"embedded;embeddedPrefix:nested_address_"` } s, err := schema.Parse(&Org{}, &sync.Map{}, schema.NamingStrategy{}) if err != nil { t.Errorf("Failed to parse schema, got error %v", err) } checkEmbeddedRelations(t, s.Relationships.EmbeddedRelations, map[string]EmbeddedRelations{ "PostalAddress": { Relations: map[string]Relation{ "Country": { Name: "Country", Type: schema.BelongsTo, Schema: "Org", FieldSchema: "Country", References: []Reference{ {PrimaryKey: "ID", PrimarySchema: "Country", ForeignKey: "CountryID", ForeignSchema: "Org"}, }, }, }, }, "VisitingAddress": { Relations: map[string]Relation{ "Country": { Name: "Country", Type: schema.BelongsTo, Schema: "Org", FieldSchema: "Country", References: []Reference{ {PrimaryKey: "ID", PrimarySchema: "Country", ForeignKey: "CountryID", ForeignSchema: "Org"}, }, }, }, }, "NestedAddress": { EmbeddedRelations: map[string]EmbeddedRelations{ "Address": { Relations: map[string]Relation{ "Country": { Name: "Country", Type: schema.BelongsTo, Schema: "Org", FieldSchema: "Country", References: []Reference{ {PrimaryKey: "ID", PrimarySchema: "Country", ForeignKey: "CountryID", ForeignSchema: "Org"}, }, }, }, }, }, }, }) } func TestVariableRelation(t *testing.T) { var result struct { User } checkStructRelation(t, &result, Relation{ Name: "Account", Type: schema.HasOne, Schema: "", FieldSchema: "Account", References: []Reference{ {"ID", "", "UserID", "Account", "", true}, }, }) checkStructRelation(t, &result, Relation{ Name: "Company", Type: schema.BelongsTo, Schema: "", FieldSchema: "Company", References: []Reference{ {"ID", "Company", "CompanyID", "", "", false}, }, }) } func TestSameForeignKey(t *testing.T) { type UserAux struct { gorm.Model Aux string UUID string } type User struct { gorm.Model Name string UUID string Aux *UserAux `gorm:"foreignkey:UUID;references:UUID"` } checkStructRelation(t, &User{}, Relation{ Name: "Aux", Type: schema.HasOne, Schema: "User", FieldSchema: "UserAux", References: []Reference{ {"UUID", "User", "UUID", "UserAux", "", true}, }, }, ) } func TestBelongsToSameForeignKey(t *testing.T) { type User struct { gorm.Model Name string UUID string } type UserAux struct { gorm.Model Aux string UUID string User User `gorm:"ForeignKey:UUID;references:UUID;belongsTo"` } checkStructRelation(t, &UserAux{}, Relation{ Name: "User", Type: schema.BelongsTo, Schema: "UserAux", FieldSchema: "User", References: []Reference{ {"UUID", "User", "UUID", "UserAux", "", false}, }, }, ) } func TestHasOneWithSameForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string ProfileRefer int // not used in relationship } type User struct { gorm.Model Profile Profile `gorm:"ForeignKey:ID;references:ProfileRefer"` ProfileRefer int } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasOne, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ProfileRefer", "User", "ID", "Profile", "", true}}, }) } func TestHasManySameForeignKey(t *testing.T) { type Profile struct { gorm.Model Name string UserRefer uint } type User struct { gorm.Model UserRefer uint Profile []Profile `gorm:"ForeignKey:UserRefer"` } checkStructRelation(t, &User{}, Relation{ Name: "Profile", Type: schema.HasMany, Schema: "User", FieldSchema: "Profile", References: []Reference{{"ID", "User", "UserRefer", "Profile", "", true}}, }) } type Author struct { gorm.Model } type Book struct { gorm.Model Author Author AuthorID uint } func (Book) TableName() string { return "my_schema.a_very_very_very_very_very_very_very_very_long_table_name" } func TestParseConstraintNameWithSchemaQualifiedLongTableName(t *testing.T) { s, err := schema.Parse( &Book{}, &sync.Map{}, schema.NamingStrategy{IdentifierMaxLength: 64}, ) if err != nil { t.Fatalf("Failed to parse schema") } expectedConstraintName := "fk_my_schema_a_very_very_very_very_very_very_very_very_l4db13eec" constraint := s.Relationships.Relations["Author"].ParseConstraint() if constraint.Name != expectedConstraintName { t.Fatalf( "expected constraint name %s, got %s", expectedConstraintName, constraint.Name, ) } }