mirror of
https://github.com/rclone/rclone.git
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322 lines
10 KiB
Go
322 lines
10 KiB
Go
/*
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Copyright 2017 Google Inc. All Rights Reserved.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package spanner
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import (
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"bytes"
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"fmt"
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"time"
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"google.golang.org/grpc/codes"
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"cloud.google.com/go/civil"
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proto3 "github.com/golang/protobuf/ptypes/struct"
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sppb "google.golang.org/genproto/googleapis/spanner/v1"
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)
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// A Key can be either a Cloud Spanner row's primary key or a secondary index key.
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// It is essentially an interface{} array, which represents a set of Cloud Spanner
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// columns. A Key type has the following usages:
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//
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// - Used as primary key which uniquely identifies a Cloud Spanner row.
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// - Used as secondary index key which maps to a set of Cloud Spanner rows
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// indexed under it.
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// - Used as endpoints of primary key/secondary index ranges,
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// see also the KeyRange type.
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//
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// Rows that are identified by the Key type are outputs of read operation or targets of
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// delete operation in a mutation. Note that for Insert/Update/InsertOrUpdate/Update
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// mutation types, although they don't require a primary key explicitly, the column list
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// provided must contain enough columns that can comprise a primary key.
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//
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// Keys are easy to construct. For example, suppose you have a table with a
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// primary key of username and product ID. To make a key for this table:
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//
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// key := spanner.Key{"john", 16}
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//
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// See the description of Row and Mutation types for how Go types are
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// mapped to Cloud Spanner types. For convenience, Key type supports a wide range
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// of Go types:
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// - int, int8, int16, int32, int64, and NullInt64 are mapped to Cloud Spanner's INT64 type.
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// - uint8, uint16 and uint32 are also mapped to Cloud Spanner's INT64 type.
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// - float32, float64, NullFloat64 are mapped to Cloud Spanner's FLOAT64 type.
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// - bool and NullBool are mapped to Cloud Spanner's BOOL type.
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// - []byte is mapped to Cloud Spanner's BYTES type.
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// - string and NullString are mapped to Cloud Spanner's STRING type.
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// - time.Time and NullTime are mapped to Cloud Spanner's TIMESTAMP type.
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// - civil.Date and NullDate are mapped to Cloud Spanner's DATE type.
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type Key []interface{}
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// errInvdKeyPartType returns error for unsupported key part type.
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func errInvdKeyPartType(part interface{}) error {
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return spannerErrorf(codes.InvalidArgument, "key part has unsupported type %T", part)
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}
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// keyPartValue converts a part of the Key (which is a valid Cloud Spanner type)
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// into a proto3.Value. Used for encoding Key type into protobuf.
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func keyPartValue(part interface{}) (pb *proto3.Value, err error) {
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switch v := part.(type) {
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case int:
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pb, _, err = encodeValue(int64(v))
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case int8:
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pb, _, err = encodeValue(int64(v))
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case int16:
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pb, _, err = encodeValue(int64(v))
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case int32:
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pb, _, err = encodeValue(int64(v))
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case uint8:
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pb, _, err = encodeValue(int64(v))
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case uint16:
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pb, _, err = encodeValue(int64(v))
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case uint32:
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pb, _, err = encodeValue(int64(v))
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case float32:
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pb, _, err = encodeValue(float64(v))
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case int64, float64, NullInt64, NullFloat64, bool, NullBool, []byte, string, NullString, time.Time, civil.Date, NullTime, NullDate:
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pb, _, err = encodeValue(v)
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default:
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return nil, errInvdKeyPartType(v)
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}
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return pb, err
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}
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// proto converts a spanner.Key into a proto3.ListValue.
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func (key Key) proto() (*proto3.ListValue, error) {
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lv := &proto3.ListValue{}
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lv.Values = make([]*proto3.Value, 0, len(key))
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for _, part := range key {
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v, err := keyPartValue(part)
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if err != nil {
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return nil, err
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}
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lv.Values = append(lv.Values, v)
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}
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return lv, nil
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}
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// String implements fmt.Stringer for Key. For string, []byte and NullString, it
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// prints the uninterpreted bytes of their contents, leaving caller with the
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// opportunity to escape the output.
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func (key Key) String() string {
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b := &bytes.Buffer{}
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fmt.Fprint(b, "(")
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for i, part := range []interface{}(key) {
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if i != 0 {
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fmt.Fprint(b, ",")
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}
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switch v := part.(type) {
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case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, float32, float64, bool:
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// Use %v to print numeric types and bool.
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fmt.Fprintf(b, "%v", v)
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case string:
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fmt.Fprintf(b, "%q", v)
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case []byte:
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if v != nil {
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fmt.Fprintf(b, "%q", v)
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} else {
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fmt.Fprint(b, "<null>")
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}
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case NullInt64, NullFloat64, NullBool, NullString, NullTime, NullDate:
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// The above types implement fmt.Stringer.
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fmt.Fprintf(b, "%s", v)
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case civil.Date:
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fmt.Fprintf(b, "%q", v)
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case time.Time:
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fmt.Fprintf(b, "%q", v.Format(time.RFC3339Nano))
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default:
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fmt.Fprintf(b, "%v", v)
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}
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}
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fmt.Fprint(b, ")")
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return b.String()
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}
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// KeyRangeKind describes the kind of interval represented by a KeyRange:
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// whether it is open or closed on the left and right.
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type KeyRangeKind int
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const (
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// ClosedOpen is closed on the left and open on the right: the Start
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// key is included, the End key is excluded.
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ClosedOpen KeyRangeKind = iota
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// ClosedClosed is closed on the left and the right: both keys are included.
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ClosedClosed
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// OpenClosed is open on the left and closed on the right: the Start
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// key is excluded, the End key is included.
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OpenClosed
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// OpenOpen is open on the left and the right: neither key is included.
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OpenOpen
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)
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// A KeyRange represents a range of rows in a table or index.
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//
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// A range has a Start key and an End key. IncludeStart and IncludeEnd
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// indicate whether the Start and End keys are included in the range.
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//
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// For example, consider the following table definition:
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//
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// CREATE TABLE UserEvents (
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// UserName STRING(MAX),
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// EventDate STRING(10),
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// ) PRIMARY KEY(UserName, EventDate);
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//
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// The following keys name rows in this table:
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//
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// spanner.Key{"Bob", "2014-09-23"}
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// spanner.Key{"Alfred", "2015-06-12"}
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//
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// Since the UserEvents table's PRIMARY KEY clause names two columns, each
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// UserEvents key has two elements; the first is the UserName, and the second
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// is the EventDate.
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//
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// Key ranges with multiple components are interpreted lexicographically by
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// component using the table or index key's declared sort order. For example,
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// the following range returns all events for user "Bob" that occurred in the
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// year 2015:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{"Bob", "2015-01-01"},
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// End: spanner.Key{"Bob", "2015-12-31"},
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// Kind: ClosedClosed,
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// }
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//
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// Start and end keys can omit trailing key components. This affects the
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// inclusion and exclusion of rows that exactly match the provided key
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// components: if IncludeStart is true, then rows that exactly match the
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// provided components of the Start key are included; if IncludeStart is false
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// then rows that exactly match are not included. IncludeEnd and End key
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// behave in the same fashion.
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//
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// For example, the following range includes all events for "Bob" that occurred
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// during and after the year 2000:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{"Bob", "2000-01-01"},
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// End: spanner.Key{"Bob"},
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// Kind: ClosedClosed,
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// }
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//
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// The next example retrieves all events for "Bob":
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//
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// spanner.PrefixRange(spanner.Key{"Bob"})
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//
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// To retrieve events before the year 2000:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{"Bob"},
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// End: spanner.Key{"Bob", "2000-01-01"},
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// Kind: ClosedOpen,
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// }
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//
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// Although we specified a Kind for this KeyRange, we didn't need to, because
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// the default is ClosedOpen. In later examples we'll omit Kind if it is
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// ClosedOpen.
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//
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// The following range includes all rows in a table or under a
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// index:
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//
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// spanner.AllKeys()
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//
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// This range returns all users whose UserName begins with any
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// character from A to C:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{"A"},
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// End: spanner.Key{"D"},
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// }
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//
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// This range returns all users whose UserName begins with B:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{"B"},
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// End: spanner.Key{"C"},
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// }
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//
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// Key ranges honor column sort order. For example, suppose a table is defined
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// as follows:
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//
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// CREATE TABLE DescendingSortedTable {
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// Key INT64,
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// ...
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// ) PRIMARY KEY(Key DESC);
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//
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// The following range retrieves all rows with key values between 1 and 100
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// inclusive:
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//
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// spanner.KeyRange{
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// Start: spanner.Key{100},
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// End: spanner.Key{1},
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// Kind: ClosedClosed,
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// }
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//
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// Note that 100 is passed as the start, and 1 is passed as the end, because
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// Key is a descending column in the schema.
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type KeyRange struct {
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// Start specifies the left boundary of the key range; End specifies
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// the right boundary of the key range.
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Start, End Key
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// Kind describes whether the boundaries of the key range include
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// their keys.
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Kind KeyRangeKind
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}
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// String implements fmt.Stringer for KeyRange type.
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func (r KeyRange) String() string {
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var left, right string
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switch r.Kind {
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case ClosedClosed:
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left, right = "[", "]"
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case ClosedOpen:
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left, right = "[", ")"
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case OpenClosed:
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left, right = "(", "]"
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case OpenOpen:
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left, right = "(", ")"
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default:
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left, right = "?", "?"
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}
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return fmt.Sprintf("%s%s,%s%s", left, r.Start, r.End, right)
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}
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// proto converts KeyRange into sppb.KeyRange.
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func (r KeyRange) proto() (*sppb.KeyRange, error) {
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var err error
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var start, end *proto3.ListValue
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pb := &sppb.KeyRange{}
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if start, err = r.Start.proto(); err != nil {
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return nil, err
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}
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if end, err = r.End.proto(); err != nil {
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return nil, err
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}
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if r.Kind == ClosedClosed || r.Kind == ClosedOpen {
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pb.StartKeyType = &sppb.KeyRange_StartClosed{StartClosed: start}
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} else {
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pb.StartKeyType = &sppb.KeyRange_StartOpen{StartOpen: start}
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}
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if r.Kind == ClosedClosed || r.Kind == OpenClosed {
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pb.EndKeyType = &sppb.KeyRange_EndClosed{EndClosed: end}
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} else {
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pb.EndKeyType = &sppb.KeyRange_EndOpen{EndOpen: end}
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}
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return pb, nil
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}
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