hdx/vendor/cloud.google.com/go/firestore/query.go
Derek McQuay 59af8fc84f
initial commit
Signed-off-by: Derek McQuay <derekmcquay@gmail.com>
2018-04-10 19:17:26 -07:00

758 lines
22 KiB
Go
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// Copyright 2017 Google Inc. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package firestore
import (
"errors"
"fmt"
"io"
"math"
"reflect"
"time"
"golang.org/x/net/context"
pb "google.golang.org/genproto/googleapis/firestore/v1beta1"
"cloud.google.com/go/internal/btree"
"github.com/golang/protobuf/ptypes/wrappers"
"google.golang.org/api/iterator"
)
// Query represents a Firestore query.
//
// Query values are immutable. Each Query method creates
// a new Query; it does not modify the old.
type Query struct {
c *Client
parentPath string // path of the collection's parent
collectionID string
selection []FieldPath
filters []filter
orders []order
offset int32
limit *wrappers.Int32Value
startVals, endVals []interface{}
startDoc, endDoc *DocumentSnapshot
startBefore, endBefore bool
err error
}
func (q *Query) collectionPath() string {
return q.parentPath + "/documents/" + q.collectionID
}
// DocumentID is the special field name representing the ID of a document
// in queries.
const DocumentID = "__name__"
// Select returns a new Query that specifies the paths
// to return from the result documents.
// Each path argument can be a single field or a dot-separated sequence of
// fields, and must not contain any of the runes "˜*/[]".
func (q Query) Select(paths ...string) Query {
var fps []FieldPath
for _, s := range paths {
fp, err := parseDotSeparatedString(s)
if err != nil {
q.err = err
return q
}
fps = append(fps, fp)
}
return q.SelectPaths(fps...)
}
// SelectPaths returns a new Query that specifies the field paths
// to return from the result documents.
func (q Query) SelectPaths(fieldPaths ...FieldPath) Query {
if len(fieldPaths) == 0 {
q.selection = []FieldPath{{DocumentID}}
} else {
q.selection = fieldPaths
}
return q
}
// Where returns a new Query that filters the set of results.
// A Query can have multiple filters.
// The path argument can be a single field or a dot-separated sequence of
// fields, and must not contain any of the runes "˜*/[]".
// The op argument must be one of "==", "<", "<=", ">" or ">=".
func (q Query) Where(path, op string, value interface{}) Query {
fp, err := parseDotSeparatedString(path)
if err != nil {
q.err = err
return q
}
q.filters = append(append([]filter(nil), q.filters...), filter{fp, op, value})
return q
}
// WherePath returns a new Query that filters the set of results.
// A Query can have multiple filters.
// The op argument must be one of "==", "<", "<=", ">" or ">=".
func (q Query) WherePath(fp FieldPath, op string, value interface{}) Query {
q.filters = append(append([]filter(nil), q.filters...), filter{fp, op, value})
return q
}
// Direction is the sort direction for result ordering.
type Direction int32
const (
// Asc sorts results from smallest to largest.
Asc Direction = Direction(pb.StructuredQuery_ASCENDING)
// Desc sorts results from largest to smallest.
Desc Direction = Direction(pb.StructuredQuery_DESCENDING)
)
// OrderBy returns a new Query that specifies the order in which results are
// returned. A Query can have multiple OrderBy/OrderByPath specifications. OrderBy
// appends the specification to the list of existing ones.
//
// The path argument can be a single field or a dot-separated sequence of
// fields, and must not contain any of the runes "˜*/[]".
//
// To order by document name, use the special field path DocumentID.
func (q Query) OrderBy(path string, dir Direction) Query {
fp, err := parseDotSeparatedString(path)
if err != nil {
q.err = err
return q
}
q.orders = append(q.copyOrders(), order{fp, dir})
return q
}
// OrderByPath returns a new Query that specifies the order in which results are
// returned. A Query can have multiple OrderBy/OrderByPath specifications.
// OrderByPath appends the specification to the list of existing ones.
func (q Query) OrderByPath(fp FieldPath, dir Direction) Query {
q.orders = append(q.copyOrders(), order{fp, dir})
return q
}
func (q *Query) copyOrders() []order {
return append([]order(nil), q.orders...)
}
// Offset returns a new Query that specifies the number of initial results to skip.
// It must not be negative.
func (q Query) Offset(n int) Query {
q.offset = trunc32(n)
return q
}
// Limit returns a new Query that specifies the maximum number of results to return.
// It must not be negative.
func (q Query) Limit(n int) Query {
q.limit = &wrappers.Int32Value{trunc32(n)}
return q
}
// StartAt returns a new Query that specifies that results should start at
// the document with the given field values.
//
// If StartAt is called with a single DocumentSnapshot, its field values are used.
// The DocumentSnapshot must have all the fields mentioned in the OrderBy clauses.
//
// Otherwise, StartAt should be called with one field value for each OrderBy clause,
// in the order that they appear. For example, in
// q.OrderBy("X", Asc).OrderBy("Y", Desc).StartAt(1, 2)
// results will begin at the first document where X = 1 and Y = 2.
//
// If an OrderBy call uses the special DocumentID field path, the corresponding value
// should be the document ID relative to the query's collection. For example, to
// start at the document "NewYork" in the "States" collection, write
//
// client.Collection("States").OrderBy(DocumentID, firestore.Asc).StartAt("NewYork")
//
// Calling StartAt overrides a previous call to StartAt or StartAfter.
func (q Query) StartAt(docSnapshotOrFieldValues ...interface{}) Query {
q.startBefore = true
q.startVals, q.startDoc, q.err = q.processCursorArg("StartAt", docSnapshotOrFieldValues)
return q
}
// StartAfter returns a new Query that specifies that results should start just after
// the document with the given field values. See Query.StartAt for more information.
//
// Calling StartAfter overrides a previous call to StartAt or StartAfter.
func (q Query) StartAfter(docSnapshotOrFieldValues ...interface{}) Query {
q.startBefore = false
q.startVals, q.startDoc, q.err = q.processCursorArg("StartAfter", docSnapshotOrFieldValues)
return q
}
// EndAt returns a new Query that specifies that results should end at the
// document with the given field values. See Query.StartAt for more information.
//
// Calling EndAt overrides a previous call to EndAt or EndBefore.
func (q Query) EndAt(docSnapshotOrFieldValues ...interface{}) Query {
q.endBefore = false
q.endVals, q.endDoc, q.err = q.processCursorArg("EndAt", docSnapshotOrFieldValues)
return q
}
// EndBefore returns a new Query that specifies that results should end just before
// the document with the given field values. See Query.StartAt for more information.
//
// Calling EndBefore overrides a previous call to EndAt or EndBefore.
func (q Query) EndBefore(docSnapshotOrFieldValues ...interface{}) Query {
q.endBefore = true
q.endVals, q.endDoc, q.err = q.processCursorArg("EndBefore", docSnapshotOrFieldValues)
return q
}
func (q *Query) processCursorArg(name string, docSnapshotOrFieldValues []interface{}) ([]interface{}, *DocumentSnapshot, error) {
for _, e := range docSnapshotOrFieldValues {
if ds, ok := e.(*DocumentSnapshot); ok {
if len(docSnapshotOrFieldValues) == 1 {
return nil, ds, nil
}
return nil, nil, fmt.Errorf("firestore: a document snapshot must be the only argument to %s", name)
}
}
return docSnapshotOrFieldValues, nil, nil
}
func (q Query) query() *Query { return &q }
func (q Query) toProto() (*pb.StructuredQuery, error) {
if q.err != nil {
return nil, q.err
}
if q.collectionID == "" {
return nil, errors.New("firestore: query created without CollectionRef")
}
p := &pb.StructuredQuery{
From: []*pb.StructuredQuery_CollectionSelector{{CollectionId: q.collectionID}},
Offset: q.offset,
Limit: q.limit,
}
if len(q.selection) > 0 {
p.Select = &pb.StructuredQuery_Projection{}
for _, fp := range q.selection {
if err := fp.validate(); err != nil {
return nil, err
}
p.Select.Fields = append(p.Select.Fields, fref(fp))
}
}
// If there is only filter, use it directly. Otherwise, construct
// a CompositeFilter.
if len(q.filters) == 1 {
pf, err := q.filters[0].toProto()
if err != nil {
return nil, err
}
p.Where = pf
} else if len(q.filters) > 1 {
cf := &pb.StructuredQuery_CompositeFilter{
Op: pb.StructuredQuery_CompositeFilter_AND,
}
p.Where = &pb.StructuredQuery_Filter{
FilterType: &pb.StructuredQuery_Filter_CompositeFilter{cf},
}
for _, f := range q.filters {
pf, err := f.toProto()
if err != nil {
return nil, err
}
cf.Filters = append(cf.Filters, pf)
}
}
orders := q.orders
if q.startDoc != nil || q.endDoc != nil {
orders = q.adjustOrders()
}
for _, ord := range orders {
po, err := ord.toProto()
if err != nil {
return nil, err
}
p.OrderBy = append(p.OrderBy, po)
}
cursor, err := q.toCursor(q.startVals, q.startDoc, q.startBefore, orders)
if err != nil {
return nil, err
}
p.StartAt = cursor
cursor, err = q.toCursor(q.endVals, q.endDoc, q.endBefore, orders)
if err != nil {
return nil, err
}
p.EndAt = cursor
return p, nil
}
// If there is a start/end that uses a Document Snapshot, we may need to adjust the OrderBy
// clauses that the user provided: we add OrderBy(__name__) if it isn't already present, and
// we make sure we don't invalidate the original query by adding an OrderBy for inequality filters.
func (q *Query) adjustOrders() []order {
// If the user is already ordering by document ID, don't change anything.
for _, ord := range q.orders {
if ord.isDocumentID() {
return q.orders
}
}
// If there are OrderBy clauses, append an OrderBy(DocumentID), using the direction of the last OrderBy clause.
if len(q.orders) > 0 {
return append(q.copyOrders(), order{
fieldPath: FieldPath{DocumentID},
dir: q.orders[len(q.orders)-1].dir,
})
}
// If there are no OrderBy clauses but there is an inequality, add an OrderBy clause
// for the field of the first inequality.
var orders []order
for _, f := range q.filters {
if f.op != "==" {
orders = []order{{fieldPath: f.fieldPath, dir: Asc}}
break
}
}
// Add an ascending OrderBy(DocumentID).
return append(orders, order{fieldPath: FieldPath{DocumentID}, dir: Asc})
}
func (q *Query) toCursor(fieldValues []interface{}, ds *DocumentSnapshot, before bool, orders []order) (*pb.Cursor, error) {
var vals []*pb.Value
var err error
if ds != nil {
vals, err = q.docSnapshotToCursorValues(ds, orders)
} else if len(fieldValues) != 0 {
vals, err = q.fieldValuesToCursorValues(fieldValues)
} else {
return nil, nil
}
if err != nil {
return nil, err
}
return &pb.Cursor{Values: vals, Before: before}, nil
}
// toPositionValues converts the field values to protos.
func (q *Query) fieldValuesToCursorValues(fieldValues []interface{}) ([]*pb.Value, error) {
if len(fieldValues) != len(q.orders) {
return nil, errors.New("firestore: number of field values in StartAt/StartAfter/EndAt/EndBefore does not match number of OrderBy fields")
}
vals := make([]*pb.Value, len(fieldValues))
var err error
for i, ord := range q.orders {
fval := fieldValues[i]
if ord.isDocumentID() {
// TODO(jba): support DocumentRefs as well as strings.
// TODO(jba): error if document ref does not belong to the right collection.
docID, ok := fval.(string)
if !ok {
return nil, fmt.Errorf("firestore: expected doc ID for DocumentID field, got %T", fval)
}
vals[i] = &pb.Value{&pb.Value_ReferenceValue{q.collectionPath() + "/" + docID}}
} else {
var sawTransform bool
vals[i], sawTransform, err = toProtoValue(reflect.ValueOf(fval))
if err != nil {
return nil, err
}
if sawTransform {
return nil, errors.New("firestore: ServerTimestamp disallowed in query value")
}
}
}
return vals, nil
}
func (q *Query) docSnapshotToCursorValues(ds *DocumentSnapshot, orders []order) ([]*pb.Value, error) {
// TODO(jba): error if doc snap does not belong to the right collection.
vals := make([]*pb.Value, len(orders))
for i, ord := range orders {
if ord.isDocumentID() {
dp, qp := ds.Ref.Parent.Path, q.collectionPath()
if dp != qp {
return nil, fmt.Errorf("firestore: document snapshot for %s passed to query on %s", dp, qp)
}
vals[i] = &pb.Value{&pb.Value_ReferenceValue{ds.Ref.Path}}
} else {
val, err := valueAtPath(ord.fieldPath, ds.proto.Fields)
if err != nil {
return nil, err
}
vals[i] = val
}
}
return vals, nil
}
// Returns a function that compares DocumentSnapshots according to q's ordering.
func (q Query) compareFunc() func(d1, d2 *DocumentSnapshot) (int, error) {
// Add implicit sorting by name, using the last specified direction.
lastDir := Asc
if len(q.orders) > 0 {
lastDir = q.orders[len(q.orders)-1].dir
}
orders := append(q.copyOrders(), order{[]string{DocumentID}, lastDir})
return func(d1, d2 *DocumentSnapshot) (int, error) {
for _, ord := range orders {
var cmp int
if len(ord.fieldPath) == 1 && ord.fieldPath[0] == DocumentID {
cmp = compareReferences(d1.Ref.Path, d2.Ref.Path)
} else {
v1, err := valueAtPath(ord.fieldPath, d1.proto.Fields)
if err != nil {
return 0, err
}
v2, err := valueAtPath(ord.fieldPath, d2.proto.Fields)
if err != nil {
return 0, err
}
cmp = compareValues(v1, v2)
}
if cmp != 0 {
if ord.dir == Desc {
cmp = -cmp
}
return cmp, nil
}
}
return 0, nil
}
}
type filter struct {
fieldPath FieldPath
op string
value interface{}
}
func (f filter) toProto() (*pb.StructuredQuery_Filter, error) {
if err := f.fieldPath.validate(); err != nil {
return nil, err
}
if uop, ok := unaryOpFor(f.value); ok {
if f.op != "==" {
return nil, fmt.Errorf("firestore: must use '==' when comparing %v", f.value)
}
return &pb.StructuredQuery_Filter{
FilterType: &pb.StructuredQuery_Filter_UnaryFilter{
UnaryFilter: &pb.StructuredQuery_UnaryFilter{
OperandType: &pb.StructuredQuery_UnaryFilter_Field{
Field: fref(f.fieldPath),
},
Op: uop,
},
},
}, nil
}
var op pb.StructuredQuery_FieldFilter_Operator
switch f.op {
case "<":
op = pb.StructuredQuery_FieldFilter_LESS_THAN
case "<=":
op = pb.StructuredQuery_FieldFilter_LESS_THAN_OR_EQUAL
case ">":
op = pb.StructuredQuery_FieldFilter_GREATER_THAN
case ">=":
op = pb.StructuredQuery_FieldFilter_GREATER_THAN_OR_EQUAL
case "==":
op = pb.StructuredQuery_FieldFilter_EQUAL
default:
return nil, fmt.Errorf("firestore: invalid operator %q", f.op)
}
val, sawTransform, err := toProtoValue(reflect.ValueOf(f.value))
if err != nil {
return nil, err
}
if sawTransform {
return nil, errors.New("firestore: ServerTimestamp disallowed in query value")
}
return &pb.StructuredQuery_Filter{
FilterType: &pb.StructuredQuery_Filter_FieldFilter{
FieldFilter: &pb.StructuredQuery_FieldFilter{
Field: fref(f.fieldPath),
Op: op,
Value: val,
},
},
}, nil
}
func unaryOpFor(value interface{}) (pb.StructuredQuery_UnaryFilter_Operator, bool) {
switch {
case value == nil:
return pb.StructuredQuery_UnaryFilter_IS_NULL, true
case isNaN(value):
return pb.StructuredQuery_UnaryFilter_IS_NAN, true
default:
return pb.StructuredQuery_UnaryFilter_OPERATOR_UNSPECIFIED, false
}
}
func isNaN(x interface{}) bool {
switch x := x.(type) {
case float32:
return math.IsNaN(float64(x))
case float64:
return math.IsNaN(x)
default:
return false
}
}
type order struct {
fieldPath FieldPath
dir Direction
}
func (r order) isDocumentID() bool {
return len(r.fieldPath) == 1 && r.fieldPath[0] == DocumentID
}
func (r order) toProto() (*pb.StructuredQuery_Order, error) {
if err := r.fieldPath.validate(); err != nil {
return nil, err
}
return &pb.StructuredQuery_Order{
Field: fref(r.fieldPath),
Direction: pb.StructuredQuery_Direction(r.dir),
}, nil
}
func fref(fp FieldPath) *pb.StructuredQuery_FieldReference {
return &pb.StructuredQuery_FieldReference{fp.toServiceFieldPath()}
}
func trunc32(i int) int32 {
if i > math.MaxInt32 {
i = math.MaxInt32
}
return int32(i)
}
// Documents returns an iterator over the query's resulting documents.
func (q Query) Documents(ctx context.Context) *DocumentIterator {
return &DocumentIterator{
iter: newQueryDocumentIterator(withResourceHeader(ctx, q.c.path()), &q, nil),
err: checkTransaction(ctx),
}
}
// DocumentIterator is an iterator over documents returned by a query.
type DocumentIterator struct {
iter docIterator
err error
}
// Unexported interface so we can have two different kinds of DocumentIterator: one
// for straight queries, and one for query snapshots. We do it this way instead of
// making DocumentIterator an interface because in the client libraries, iterators are
// always concrete types, and the fact that this one has two different implementations
// is an internal detail.
type docIterator interface {
next() (*DocumentSnapshot, error)
stop()
}
// Next returns the next result. Its second return value is iterator.Done if there
// are no more results. Once Next returns Done, all subsequent calls will return
// Done.
func (it *DocumentIterator) Next() (*DocumentSnapshot, error) {
if it.err != nil {
return nil, it.err
}
ds, err := it.iter.next()
if err != nil {
it.err = err
}
return ds, err
}
// Stop stops the iterator, freeing its resources.
// Always call Stop when you are done with an iterator.
// It is not safe to call Stop concurrently with Next.
func (it *DocumentIterator) Stop() {
if it.iter != nil { // possible in error cases
it.iter.stop()
}
if it.err == nil {
it.err = iterator.Done
}
}
// GetAll returns all the documents remaining from the iterator.
// It is not necessary to call Stop on the iterator after calling GetAll.
func (it *DocumentIterator) GetAll() ([]*DocumentSnapshot, error) {
defer it.Stop()
var docs []*DocumentSnapshot
for {
doc, err := it.Next()
if err == iterator.Done {
break
}
if err != nil {
return nil, err
}
docs = append(docs, doc)
}
return docs, nil
}
type queryDocumentIterator struct {
ctx context.Context
cancel func()
q *Query
tid []byte // transaction ID, if any
streamClient pb.Firestore_RunQueryClient
}
func newQueryDocumentIterator(ctx context.Context, q *Query, tid []byte) *queryDocumentIterator {
ctx, cancel := context.WithCancel(ctx)
return &queryDocumentIterator{
ctx: ctx,
cancel: cancel,
q: q,
tid: tid,
}
}
func (it *queryDocumentIterator) next() (*DocumentSnapshot, error) {
client := it.q.c
if it.streamClient == nil {
sq, err := it.q.toProto()
if err != nil {
return nil, err
}
req := &pb.RunQueryRequest{
Parent: it.q.parentPath,
QueryType: &pb.RunQueryRequest_StructuredQuery{sq},
}
if it.tid != nil {
req.ConsistencySelector = &pb.RunQueryRequest_Transaction{it.tid}
}
it.streamClient, err = client.c.RunQuery(it.ctx, req)
if err != nil {
return nil, err
}
}
var res *pb.RunQueryResponse
var err error
for {
res, err = it.streamClient.Recv()
if err == io.EOF {
return nil, iterator.Done
}
if err != nil {
return nil, err
}
if res.Document != nil {
break
}
// No document => partial progress; keep receiving.
}
docRef, err := pathToDoc(res.Document.Name, client)
if err != nil {
return nil, err
}
doc, err := newDocumentSnapshot(docRef, res.Document, client, res.ReadTime)
if err != nil {
return nil, err
}
return doc, nil
}
func (it *queryDocumentIterator) stop() {
it.cancel()
}
// Snapshots returns an iterator over snapshots of the query. Each time the query
// results change, a new snapshot will be generated.
func (q Query) Snapshots(ctx context.Context) *QuerySnapshotIterator {
ws, err := newWatchStreamForQuery(ctx, q)
if err != nil {
return &QuerySnapshotIterator{err: err}
}
return &QuerySnapshotIterator{
Query: q,
ws: ws,
}
}
// QuerySnapshotIterator is an iterator over snapshots of a query.
// Call Next on the iterator to get a snapshot of the query's results each time they change.
// Call Stop on the iterator when done.
//
// For an example, see Query.Snapshots.
type QuerySnapshotIterator struct {
// The Query used to construct this iterator.
Query Query
// The time at which the most recent snapshot was obtained from Firestore.
ReadTime time.Time
// The number of results in the most recent snapshot.
Size int
// The changes since the previous snapshot.
Changes []DocumentChange
ws *watchStream
err error
}
// Next blocks until the query's results change, then returns a DocumentIterator for
// the current results.
//
// Next never returns iterator.Done unless it is called after Stop.
func (it *QuerySnapshotIterator) Next() (*DocumentIterator, error) {
if it.err != nil {
return nil, it.err
}
btree, changes, readTime, err := it.ws.nextSnapshot()
if err != nil {
if err == io.EOF {
err = iterator.Done
}
it.err = err
return nil, it.err
}
it.Changes = changes
it.ReadTime = readTime
it.Size = btree.Len()
return &DocumentIterator{
iter: (*btreeDocumentIterator)(btree.BeforeIndex(0)),
}, nil
}
// Stop stops receiving snapshots.
// You should always call Stop when you are done with an iterator, to free up resources.
// It is not safe to call Stop concurrently with Next.
func (it *QuerySnapshotIterator) Stop() {
it.ws.stop()
}
type btreeDocumentIterator btree.Iterator
func (it *btreeDocumentIterator) next() (*DocumentSnapshot, error) {
if !(*btree.Iterator)(it).Next() {
return nil, iterator.Done
}
return it.Key.(*DocumentSnapshot), nil
}
func (*btreeDocumentIterator) stop() {}