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repo-template/vendor/google.golang.org/appengine/datastore/query_test.go
2018-02-07 10:03:05 +01:00

583 lines
14 KiB
Go

// Copyright 2011 Google Inc. All Rights Reserved.
// Use of this source code is governed by the Apache 2.0
// license that can be found in the LICENSE file.
package datastore
import (
"errors"
"fmt"
"reflect"
"strings"
"testing"
"github.com/golang/protobuf/proto"
"google.golang.org/appengine/internal"
"google.golang.org/appengine/internal/aetesting"
pb "google.golang.org/appengine/internal/datastore"
)
var (
path1 = &pb.Path{
Element: []*pb.Path_Element{
{
Type: proto.String("Gopher"),
Id: proto.Int64(6),
},
},
}
path2 = &pb.Path{
Element: []*pb.Path_Element{
{
Type: proto.String("Gopher"),
Id: proto.Int64(6),
},
{
Type: proto.String("Gopher"),
Id: proto.Int64(8),
},
},
}
)
func fakeRunQuery(in *pb.Query, out *pb.QueryResult) error {
expectedIn := &pb.Query{
App: proto.String("dev~fake-app"),
Kind: proto.String("Gopher"),
Compile: proto.Bool(true),
}
if !proto.Equal(in, expectedIn) {
return fmt.Errorf("unsupported argument: got %v want %v", in, expectedIn)
}
*out = pb.QueryResult{
Result: []*pb.EntityProto{
{
Key: &pb.Reference{
App: proto.String("s~test-app"),
Path: path1,
},
EntityGroup: path1,
Property: []*pb.Property{
{
Meaning: pb.Property_TEXT.Enum(),
Name: proto.String("Name"),
Value: &pb.PropertyValue{
StringValue: proto.String("George"),
},
},
{
Name: proto.String("Height"),
Value: &pb.PropertyValue{
Int64Value: proto.Int64(32),
},
},
},
},
{
Key: &pb.Reference{
App: proto.String("s~test-app"),
Path: path2,
},
EntityGroup: path1, // ancestor is George
Property: []*pb.Property{
{
Meaning: pb.Property_TEXT.Enum(),
Name: proto.String("Name"),
Value: &pb.PropertyValue{
StringValue: proto.String("Rufus"),
},
},
// No height for Rufus.
},
},
},
MoreResults: proto.Bool(false),
}
return nil
}
type StructThatImplementsPLS struct{}
func (StructThatImplementsPLS) Load(p []Property) error { return nil }
func (StructThatImplementsPLS) Save() ([]Property, error) { return nil, nil }
var _ PropertyLoadSaver = StructThatImplementsPLS{}
type StructPtrThatImplementsPLS struct{}
func (*StructPtrThatImplementsPLS) Load(p []Property) error { return nil }
func (*StructPtrThatImplementsPLS) Save() ([]Property, error) { return nil, nil }
var _ PropertyLoadSaver = &StructPtrThatImplementsPLS{}
type PropertyMap map[string]Property
func (m PropertyMap) Load(props []Property) error {
for _, p := range props {
if p.Multiple {
return errors.New("PropertyMap does not support multiple properties")
}
m[p.Name] = p
}
return nil
}
func (m PropertyMap) Save() ([]Property, error) {
props := make([]Property, 0, len(m))
for _, p := range m {
if p.Multiple {
return nil, errors.New("PropertyMap does not support multiple properties")
}
props = append(props, p)
}
return props, nil
}
var _ PropertyLoadSaver = PropertyMap{}
type Gopher struct {
Name string
Height int
}
// typeOfEmptyInterface is the type of interface{}, but we can't use
// reflect.TypeOf((interface{})(nil)) directly because TypeOf takes an
// interface{}.
var typeOfEmptyInterface = reflect.TypeOf((*interface{})(nil)).Elem()
func TestCheckMultiArg(t *testing.T) {
testCases := []struct {
v interface{}
mat multiArgType
elemType reflect.Type
}{
// Invalid cases.
{nil, multiArgTypeInvalid, nil},
{Gopher{}, multiArgTypeInvalid, nil},
{&Gopher{}, multiArgTypeInvalid, nil},
{PropertyList{}, multiArgTypeInvalid, nil}, // This is a special case.
{PropertyMap{}, multiArgTypeInvalid, nil},
{[]*PropertyList(nil), multiArgTypeInvalid, nil},
{[]*PropertyMap(nil), multiArgTypeInvalid, nil},
{[]**Gopher(nil), multiArgTypeInvalid, nil},
{[]*interface{}(nil), multiArgTypeInvalid, nil},
// Valid cases.
{
[]PropertyList(nil),
multiArgTypePropertyLoadSaver,
reflect.TypeOf(PropertyList{}),
},
{
[]PropertyMap(nil),
multiArgTypePropertyLoadSaver,
reflect.TypeOf(PropertyMap{}),
},
{
[]StructThatImplementsPLS(nil),
multiArgTypePropertyLoadSaver,
reflect.TypeOf(StructThatImplementsPLS{}),
},
{
[]StructPtrThatImplementsPLS(nil),
multiArgTypePropertyLoadSaver,
reflect.TypeOf(StructPtrThatImplementsPLS{}),
},
{
[]Gopher(nil),
multiArgTypeStruct,
reflect.TypeOf(Gopher{}),
},
{
[]*Gopher(nil),
multiArgTypeStructPtr,
reflect.TypeOf(Gopher{}),
},
{
[]interface{}(nil),
multiArgTypeInterface,
typeOfEmptyInterface,
},
}
for _, tc := range testCases {
mat, elemType := checkMultiArg(reflect.ValueOf(tc.v))
if mat != tc.mat || elemType != tc.elemType {
t.Errorf("checkMultiArg(%T): got %v, %v want %v, %v",
tc.v, mat, elemType, tc.mat, tc.elemType)
}
}
}
func TestSimpleQuery(t *testing.T) {
struct1 := Gopher{Name: "George", Height: 32}
struct2 := Gopher{Name: "Rufus"}
pList1 := PropertyList{
{
Name: "Name",
Value: "George",
},
{
Name: "Height",
Value: int64(32),
},
}
pList2 := PropertyList{
{
Name: "Name",
Value: "Rufus",
},
}
pMap1 := PropertyMap{
"Name": Property{
Name: "Name",
Value: "George",
},
"Height": Property{
Name: "Height",
Value: int64(32),
},
}
pMap2 := PropertyMap{
"Name": Property{
Name: "Name",
Value: "Rufus",
},
}
testCases := []struct {
dst interface{}
want interface{}
}{
// The destination must have type *[]P, *[]S or *[]*S, for some non-interface
// type P such that *P implements PropertyLoadSaver, or for some struct type S.
{new([]Gopher), &[]Gopher{struct1, struct2}},
{new([]*Gopher), &[]*Gopher{&struct1, &struct2}},
{new([]PropertyList), &[]PropertyList{pList1, pList2}},
{new([]PropertyMap), &[]PropertyMap{pMap1, pMap2}},
// Any other destination type is invalid.
{0, nil},
{Gopher{}, nil},
{PropertyList{}, nil},
{PropertyMap{}, nil},
{[]int{}, nil},
{[]Gopher{}, nil},
{[]PropertyList{}, nil},
{new(int), nil},
{new(Gopher), nil},
{new(PropertyList), nil}, // This is a special case.
{new(PropertyMap), nil},
{new([]int), nil},
{new([]map[int]int), nil},
{new([]map[string]Property), nil},
{new([]map[string]interface{}), nil},
{new([]*int), nil},
{new([]*map[int]int), nil},
{new([]*map[string]Property), nil},
{new([]*map[string]interface{}), nil},
{new([]**Gopher), nil},
{new([]*PropertyList), nil},
{new([]*PropertyMap), nil},
}
for _, tc := range testCases {
nCall := 0
c := aetesting.FakeSingleContext(t, "datastore_v3", "RunQuery", func(in *pb.Query, out *pb.QueryResult) error {
nCall++
return fakeRunQuery(in, out)
})
c = internal.WithAppIDOverride(c, "dev~fake-app")
var (
expectedErr error
expectedNCall int
)
if tc.want == nil {
expectedErr = ErrInvalidEntityType
} else {
expectedNCall = 1
}
keys, err := NewQuery("Gopher").GetAll(c, tc.dst)
if err != expectedErr {
t.Errorf("dst type %T: got error [%v], want [%v]", tc.dst, err, expectedErr)
continue
}
if nCall != expectedNCall {
t.Errorf("dst type %T: Context.Call was called an incorrect number of times: got %d want %d", tc.dst, nCall, expectedNCall)
continue
}
if err != nil {
continue
}
key1 := NewKey(c, "Gopher", "", 6, nil)
expectedKeys := []*Key{
key1,
NewKey(c, "Gopher", "", 8, key1),
}
if l1, l2 := len(keys), len(expectedKeys); l1 != l2 {
t.Errorf("dst type %T: got %d keys, want %d keys", tc.dst, l1, l2)
continue
}
for i, key := range keys {
if key.AppID() != "s~test-app" {
t.Errorf(`dst type %T: Key #%d's AppID = %q, want "s~test-app"`, tc.dst, i, key.AppID())
continue
}
if !keysEqual(key, expectedKeys[i]) {
t.Errorf("dst type %T: got key #%d %v, want %v", tc.dst, i, key, expectedKeys[i])
continue
}
}
if !reflect.DeepEqual(tc.dst, tc.want) {
t.Errorf("dst type %T: Entities got %+v, want %+v", tc.dst, tc.dst, tc.want)
continue
}
}
}
// keysEqual is like (*Key).Equal, but ignores the App ID.
func keysEqual(a, b *Key) bool {
for a != nil && b != nil {
if a.Kind() != b.Kind() || a.StringID() != b.StringID() || a.IntID() != b.IntID() {
return false
}
a, b = a.Parent(), b.Parent()
}
return a == b
}
func TestQueriesAreImmutable(t *testing.T) {
// Test that deriving q2 from q1 does not modify q1.
q0 := NewQuery("foo")
q1 := NewQuery("foo")
q2 := q1.Offset(2)
if !reflect.DeepEqual(q0, q1) {
t.Errorf("q0 and q1 were not equal")
}
if reflect.DeepEqual(q1, q2) {
t.Errorf("q1 and q2 were equal")
}
// Test that deriving from q4 twice does not conflict, even though
// q4 has a long list of order clauses. This tests that the arrays
// backed by a query's slice of orders are not shared.
f := func() *Query {
q := NewQuery("bar")
// 47 is an ugly number that is unlikely to be near a re-allocation
// point in repeated append calls. For example, it's not near a power
// of 2 or a multiple of 10.
for i := 0; i < 47; i++ {
q = q.Order(fmt.Sprintf("x%d", i))
}
return q
}
q3 := f().Order("y")
q4 := f()
q5 := q4.Order("y")
q6 := q4.Order("z")
if !reflect.DeepEqual(q3, q5) {
t.Errorf("q3 and q5 were not equal")
}
if reflect.DeepEqual(q5, q6) {
t.Errorf("q5 and q6 were equal")
}
}
func TestFilterParser(t *testing.T) {
testCases := []struct {
filterStr string
wantOK bool
wantFieldName string
wantOp operator
}{
// Supported ops.
{"x<", true, "x", lessThan},
{"x <", true, "x", lessThan},
{"x <", true, "x", lessThan},
{" x < ", true, "x", lessThan},
{"x <=", true, "x", lessEq},
{"x =", true, "x", equal},
{"x >=", true, "x", greaterEq},
{"x >", true, "x", greaterThan},
{"in >", true, "in", greaterThan},
{"in>", true, "in", greaterThan},
// Valid but (currently) unsupported ops.
{"x!=", false, "", 0},
{"x !=", false, "", 0},
{" x != ", false, "", 0},
{"x IN", false, "", 0},
{"x in", false, "", 0},
// Invalid ops.
{"x EQ", false, "", 0},
{"x lt", false, "", 0},
{"x <>", false, "", 0},
{"x >>", false, "", 0},
{"x ==", false, "", 0},
{"x =<", false, "", 0},
{"x =>", false, "", 0},
{"x !", false, "", 0},
{"x ", false, "", 0},
{"x", false, "", 0},
}
for _, tc := range testCases {
q := NewQuery("foo").Filter(tc.filterStr, 42)
if ok := q.err == nil; ok != tc.wantOK {
t.Errorf("%q: ok=%t, want %t", tc.filterStr, ok, tc.wantOK)
continue
}
if !tc.wantOK {
continue
}
if len(q.filter) != 1 {
t.Errorf("%q: len=%d, want %d", tc.filterStr, len(q.filter), 1)
continue
}
got, want := q.filter[0], filter{tc.wantFieldName, tc.wantOp, 42}
if got != want {
t.Errorf("%q: got %v, want %v", tc.filterStr, got, want)
continue
}
}
}
func TestQueryToProto(t *testing.T) {
// The context is required to make Keys for the test cases.
var got *pb.Query
NoErr := errors.New("No error")
c := aetesting.FakeSingleContext(t, "datastore_v3", "RunQuery", func(in *pb.Query, out *pb.QueryResult) error {
got = in
return NoErr // return a non-nil error so Run doesn't keep going.
})
c = internal.WithAppIDOverride(c, "dev~fake-app")
testCases := []struct {
desc string
query *Query
want *pb.Query
err string
}{
{
desc: "empty",
query: NewQuery(""),
want: &pb.Query{},
},
{
desc: "standard query",
query: NewQuery("kind").Order("-I").Filter("I >", 17).Filter("U =", "Dave").Limit(7).Offset(42),
want: &pb.Query{
Kind: proto.String("kind"),
Filter: []*pb.Query_Filter{
{
Op: pb.Query_Filter_GREATER_THAN.Enum(),
Property: []*pb.Property{
{
Name: proto.String("I"),
Value: &pb.PropertyValue{Int64Value: proto.Int64(17)},
Multiple: proto.Bool(false),
},
},
},
{
Op: pb.Query_Filter_EQUAL.Enum(),
Property: []*pb.Property{
{
Name: proto.String("U"),
Value: &pb.PropertyValue{StringValue: proto.String("Dave")},
Multiple: proto.Bool(false),
},
},
},
},
Order: []*pb.Query_Order{
{
Property: proto.String("I"),
Direction: pb.Query_Order_DESCENDING.Enum(),
},
},
Limit: proto.Int32(7),
Offset: proto.Int32(42),
},
},
{
desc: "ancestor",
query: NewQuery("").Ancestor(NewKey(c, "kind", "Mummy", 0, nil)),
want: &pb.Query{
Ancestor: &pb.Reference{
App: proto.String("dev~fake-app"),
Path: &pb.Path{
Element: []*pb.Path_Element{{Type: proto.String("kind"), Name: proto.String("Mummy")}},
},
},
},
},
{
desc: "projection",
query: NewQuery("").Project("A", "B"),
want: &pb.Query{
PropertyName: []string{"A", "B"},
},
},
{
desc: "projection with distinct",
query: NewQuery("").Project("A", "B").Distinct(),
want: &pb.Query{
PropertyName: []string{"A", "B"},
GroupByPropertyName: []string{"A", "B"},
},
},
{
desc: "keys only",
query: NewQuery("").KeysOnly(),
want: &pb.Query{
KeysOnly: proto.Bool(true),
RequirePerfectPlan: proto.Bool(true),
},
},
{
desc: "empty filter",
query: NewQuery("kind").Filter("=", 17),
err: "empty query filter field nam",
},
{
desc: "bad filter type",
query: NewQuery("kind").Filter("M =", map[string]bool{}),
err: "bad query filter value type",
},
{
desc: "bad filter operator",
query: NewQuery("kind").Filter("I <<=", 17),
err: `invalid operator "<<=" in filter "I <<="`,
},
{
desc: "empty order",
query: NewQuery("kind").Order(""),
err: "empty order",
},
{
desc: "bad order direction",
query: NewQuery("kind").Order("+I"),
err: `invalid order: "+I`,
},
}
for _, tt := range testCases {
got = nil
if _, err := tt.query.Run(c).Next(nil); err != NoErr {
if tt.err == "" || !strings.Contains(err.Error(), tt.err) {
t.Errorf("%s: error %v, want %q", tt.desc, err, tt.err)
}
continue
}
if tt.err != "" {
t.Errorf("%s: no error, want %q", tt.desc, tt.err)
continue
}
// Fields that are common to all protos.
tt.want.App = proto.String("dev~fake-app")
tt.want.Compile = proto.Bool(true)
if !proto.Equal(got, tt.want) {
t.Errorf("%s:\ngot %v\nwant %v", tt.desc, got, tt.want)
}
}
}