package queries import ( "fmt" "testing" "github.com/lbryio/sqlboiler/boil" ) var testEagerCounters struct { ChildOne int ChildMany int NestedOne int NestedMany int } type testEager struct { ID int R *testEagerR L testEagerL } type testEagerR struct { ChildOne *testEagerChild ChildMany []*testEagerChild ZeroOne *testEagerZero ZeroMany []*testEagerZero } type testEagerL struct { } type testEagerChild struct { ID int R *testEagerChildR L testEagerChildL } type testEagerChildR struct { NestedOne *testEagerNested NestedMany []*testEagerNested } type testEagerChildL struct { } type testEagerNested struct { ID int R *testEagerNestedR L testEagerNestedL } type testEagerNestedR struct { } type testEagerNestedL struct { } type testEagerZero struct { ID int R *testEagerZeroR L testEagerZeroL } type testEagerZeroR struct { NestedOne *testEagerNested NestedMany []*testEagerNested } type testEagerZeroL struct { } func (testEagerL) LoadChildOne(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEager if singular { toSetOn = []*testEager{obj.(*testEager)} } else { toSetOn = *obj.(*[]*testEager) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerR{} } o.R.ChildOne = &testEagerChild{ID: 11} } testEagerCounters.ChildOne++ return nil } func (testEagerL) LoadChildMany(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEager if singular { toSetOn = []*testEager{obj.(*testEager)} } else { toSetOn = *obj.(*[]*testEager) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerR{} } o.R.ChildMany = []*testEagerChild{ &testEagerChild{ID: 12}, &testEagerChild{ID: 13}, } } testEagerCounters.ChildMany++ return nil } func (testEagerChildL) LoadNestedOne(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEagerChild if singular { toSetOn = []*testEagerChild{obj.(*testEagerChild)} } else { toSetOn = *obj.(*[]*testEagerChild) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerChildR{} } o.R.NestedOne = &testEagerNested{ID: 21} } testEagerCounters.NestedOne++ return nil } func (testEagerChildL) LoadNestedMany(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEagerChild if singular { toSetOn = []*testEagerChild{obj.(*testEagerChild)} } else { toSetOn = *obj.(*[]*testEagerChild) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerChildR{} } o.R.NestedMany = []*testEagerNested{ &testEagerNested{ID: 22}, &testEagerNested{ID: 23}, } } testEagerCounters.NestedMany++ return nil } func (testEagerL) LoadZeroOne(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEager if singular { toSetOn = []*testEager{obj.(*testEager)} } else { toSetOn = *obj.(*[]*testEager) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerR{} } } return nil } func (testEagerL) LoadZeroMany(_ boil.Executor, singular bool, obj interface{}) error { var toSetOn []*testEager if singular { toSetOn = []*testEager{obj.(*testEager)} } else { toSetOn = *obj.(*[]*testEager) } for _, o := range toSetOn { if o.R == nil { o.R = &testEagerR{} } o.R.ZeroMany = []*testEagerZero{} } return nil } func (testEagerZeroL) LoadNestedOne(_ boil.Executor, singular bool, obj interface{}) error { return nil } func (testEagerZeroL) LoadNestedMany(_ boil.Executor, singular bool, obj interface{}) error { return nil } func TestEagerLoadFromOne(t *testing.T) { testEagerCounters.ChildOne = 0 testEagerCounters.ChildMany = 0 testEagerCounters.NestedOne = 0 testEagerCounters.NestedMany = 0 obj := &testEager{} toLoad := []string{"ChildOne.NestedMany", "ChildOne.NestedOne", "ChildMany.NestedMany", "ChildMany.NestedOne"} err := eagerLoad(nil, toLoad, obj, kindStruct) if err != nil { t.Fatal(err) } if testEagerCounters.ChildMany != 1 { t.Error(testEagerCounters.ChildMany) } if testEagerCounters.ChildOne != 1 { t.Error(testEagerCounters.ChildOne) } if testEagerCounters.NestedMany != 2 { t.Error(testEagerCounters.NestedMany) } if testEagerCounters.NestedOne != 2 { t.Error(testEagerCounters.NestedOne) } checkChildOne(obj.R.ChildOne) checkChildMany(obj.R.ChildMany) checkNestedOne(obj.R.ChildOne.R.NestedOne) checkNestedOne(obj.R.ChildMany[0].R.NestedOne) checkNestedOne(obj.R.ChildMany[1].R.NestedOne) checkNestedMany(obj.R.ChildOne.R.NestedMany) checkNestedMany(obj.R.ChildMany[0].R.NestedMany) checkNestedMany(obj.R.ChildMany[1].R.NestedMany) } func TestEagerLoadFromMany(t *testing.T) { testEagerCounters.ChildOne = 0 testEagerCounters.ChildMany = 0 testEagerCounters.NestedOne = 0 testEagerCounters.NestedMany = 0 slice := []*testEager{ {ID: -1}, {ID: -2}, } toLoad := []string{"ChildOne.NestedMany", "ChildOne.NestedOne", "ChildMany.NestedMany", "ChildMany.NestedOne"} err := eagerLoad(nil, toLoad, &slice, kindPtrSliceStruct) if err != nil { t.Fatal(err) } if testEagerCounters.ChildMany != 1 { t.Error(testEagerCounters.ChildMany) } if testEagerCounters.ChildOne != 1 { t.Error(testEagerCounters.ChildOne) } if testEagerCounters.NestedMany != 2 { t.Error(testEagerCounters.NestedMany) } if testEagerCounters.NestedOne != 2 { t.Error(testEagerCounters.NestedOne) } checkChildOne(slice[0].R.ChildOne) checkChildOne(slice[1].R.ChildOne) checkChildMany(slice[0].R.ChildMany) checkChildMany(slice[1].R.ChildMany) checkNestedOne(slice[0].R.ChildOne.R.NestedOne) checkNestedOne(slice[0].R.ChildMany[0].R.NestedOne) checkNestedOne(slice[0].R.ChildMany[1].R.NestedOne) checkNestedOne(slice[1].R.ChildOne.R.NestedOne) checkNestedOne(slice[1].R.ChildMany[0].R.NestedOne) checkNestedOne(slice[1].R.ChildMany[1].R.NestedOne) checkNestedMany(slice[0].R.ChildOne.R.NestedMany) checkNestedMany(slice[0].R.ChildMany[0].R.NestedMany) checkNestedMany(slice[0].R.ChildMany[1].R.NestedMany) checkNestedMany(slice[1].R.ChildOne.R.NestedMany) checkNestedMany(slice[1].R.ChildMany[0].R.NestedMany) checkNestedMany(slice[1].R.ChildMany[1].R.NestedMany) } func TestEagerLoadZeroParents(t *testing.T) { t.Parallel() obj := &testEager{} toLoad := []string{"ZeroMany.NestedMany", "ZeroOne.NestedOne", "ZeroMany.NestedMany", "ZeroOne.NestedOne"} err := eagerLoad(nil, toLoad, obj, kindStruct) if err != nil { t.Fatal(err) } if len(obj.R.ZeroMany) != 0 { t.Error("should have loaded nothing") } if obj.R.ZeroOne != nil { t.Error("should have loaded nothing") } } func TestEagerLoadZeroParentsMany(t *testing.T) { t.Parallel() obj := []*testEager{ &testEager{}, &testEager{}, } toLoad := []string{"ZeroMany.NestedMany", "ZeroOne.NestedOne", "ZeroMany.NestedMany", "ZeroOne.NestedOne"} err := eagerLoad(nil, toLoad, &obj, kindPtrSliceStruct) if err != nil { t.Fatal(err) } if len(obj[0].R.ZeroMany) != 0 { t.Error("should have loaded nothing") } if obj[0].R.ZeroOne != nil { t.Error("should have loaded nothing") } if len(obj[1].R.ZeroMany) != 0 { t.Error("should have loaded nothing") } if obj[1].R.ZeroOne != nil { t.Error("should have loaded nothing") } } func checkChildOne(c *testEagerChild) { if c == nil { panic("c was nil") } if c.ID != 11 { panic(fmt.Sprintf("ChildOne id was not loaded correctly: %d", c.ID)) } } func checkChildMany(cs []*testEagerChild) { if len(cs) != 2 { panic("cs len was not 2") } if cs[0].ID != 12 { panic(fmt.Sprintf("cs[0] had wrong id: %d", cs[0].ID)) } if cs[1].ID != 13 { panic(fmt.Sprintf("cs[1] had wrong id: %d", cs[1].ID)) } } func checkNestedOne(n *testEagerNested) { if n == nil { panic("n was nil") } if n.ID != 21 { panic(fmt.Sprintf("NestedOne id was not loaded correctly: %d", n.ID)) } } func checkNestedMany(ns []*testEagerNested) { if len(ns) != 2 { panic("ns len was not 2") } if ns[0].ID != 22 { panic(fmt.Sprintf("ns[0] had wrong id: %d", ns[0].ID)) } if ns[1].ID != 23 { panic(fmt.Sprintf("ns[1] had wrong id: %d", ns[1].ID)) } }