320 lines
9.6 KiB
Go
320 lines
9.6 KiB
Go
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/*
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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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/*
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Package spanner provides a client for reading and writing to Cloud Spanner
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databases. See the packages under admin for clients that operate on databases
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and instances.
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Note: This package is in alpha. Backwards-incompatible changes may occur
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without notice.
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See https://cloud.google.com/spanner/docs/getting-started/go/ for an introduction
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to Cloud Spanner and additional help on using this API.
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Creating a Client
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To start working with this package, create a client that refers to the database
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of interest:
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ctx := context.Background()
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client, err := spanner.NewClient(ctx, "projects/P/instances/I/databases/D")
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if err != nil {
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// TODO: Handle error.
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}
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Simple Reads and Writes
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Two Client methods, Apply and Single, work well for simple reads and writes. As
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a quick introduction, here we write a new row to the database and read it back:
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_, err := client.Apply(ctx, []*spanner.Mutation{
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spanner.Insert("Users",
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[]string{"name", "email"},
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[]interface{}{"alice", "a@example.com"})})
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if err != nil {
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// TODO: Handle error.
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}
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row, err := client.Single().ReadRow(ctx, "Users",
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spanner.Key{"alice"}, []string{"email"})
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if err != nil {
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// TODO: Handle error.
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}
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All the methods used above are discussed in more detail below.
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Keys
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Every Cloud Spanner row has a unique key, composed of one or more columns.
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Construct keys with a literal of type Key:
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key1 := spanner.Key{"alice"}
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KeyRanges
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The keys of a Cloud Spanner table are ordered. You can specify ranges of keys
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using the KeyRange type:
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kr1 := spanner.KeyRange{Start: key1, End: key2}
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By default, a KeyRange includes its start key but not its end key. Use
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the Kind field to specify other boundary conditions:
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// include both keys
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kr2 := spanner.KeyRange{Start: key1, End: key2, Kind: spanner.ClosedClosed}
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KeySets
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A KeySet represents a set of keys. AllKeys returns a KeySet that refers to all
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the keys in a table:
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ks1 := spanner.AllKeys()
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To construct a set of specific keys, use the Keys function:
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ks2 := spanner.Keys(key1, key2, key3)
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You can also build KeySets from ranges of keys:
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ks3 := spanner.Range(kr1)
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Use UnionKeySets to build up more complex KeySets, or construct one directly
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using a KeySet literal:
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ks4 := spanner.KeySet{
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Keys: []spanner.Keys{key1, key2},
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Ranges: []spanner.KeyRange{kr1, kr2},
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}
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Transactions
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All Cloud Spanner reads and writes occur inside transactions. There are two
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types of transactions, read-only and read-write. Read-only transactions cannot
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change the database, do not acquire locks, and may access either the current
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database state or states in the past. Read-write transactions can read the
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database before writing to it, and always apply to the most recent database
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state.
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Single Reads
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The simplest and fastest transaction is a ReadOnlyTransaction that supports a
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single read operation. Use Client.Single to create such a transaction. You can
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chain the call to Single with a call to a Read method.
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When you only want one row whose key you know, use ReadRow. Provide the table
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name, key, and the columns you want to read:
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row, err := client.Single().ReadRow(ctx, "Accounts", spanner.Key{"alice"}, []string{"balance"})
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Read multiple rows with the Read method. It takes a table name, KeySet, and list
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of columns:
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iter := client.Single().Read(ctx, "Accounts", keyset1, columns)
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Read returns a RowIterator. You can call the Do method on the iterator and pass
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a callback:
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err := iter.Do(func(row *Row) error {
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// TODO: use row
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return nil
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})
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RowIterator also follows the standard pattern for the Google
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Cloud Client Libraries:
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defer iter.Stop()
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for {
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row, err := iter.Next()
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if err == iterator.Done {
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break
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}
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if err != nil {
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// TODO: Handle error.
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}
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// TODO: use row
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}
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Always call Stop when you finish using an iterator this way, whether or not you
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iterate to the end. (Failing to call Stop could lead you to exhaust the
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database's session quota.)
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To read rows with an index, use ReadUsingIndex.
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Statements
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The most general form of reading uses SQL statements. Construct a Statement
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with NewStatement, setting any parameters using the Statement's Params map:
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stmt := spanner.NewStatement("SELECT First, Last FROM SINGERS WHERE Last >= @start")
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stmt.Params["start"] = "Dylan"
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You can also construct a Statement directly with a struct literal, providing
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your own map of parameters.
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Use the Query method to run the statement and obtain an iterator:
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iter := client.Single().Query(ctx, stmt)
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Rows
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Once you have a Row, via an iterator or a call to ReadRow, you can extract
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column values in several ways. Pass in a pointer to a Go variable of the
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appropriate type when you extract a value.
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You can extract by column position or name:
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err := row.Column(0, &name)
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err = row.ColumnByName("balance", &balance)
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You can extract all the columns at once:
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err = row.Columns(&name, &balance)
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Or you can define a Go struct that corresponds to your columns, and extract
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into that:
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var s struct { Name string; Balance int64 }
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err = row.ToStruct(&s)
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For Cloud Spanner columns that may contain NULL, use one of the NullXXX types,
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like NullString:
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var ns spanner.NullString
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if err =: row.Column(0, &ns); err != nil {
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// TODO: Handle error.
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}
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if ns.Valid {
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fmt.Println(ns.StringVal)
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} else {
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fmt.Println("column is NULL")
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}
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Multiple Reads
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To perform more than one read in a transaction, use ReadOnlyTransaction:
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txn := client.ReadOnlyTransaction()
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defer txn.Close()
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iter := txn.Query(ctx, stmt1)
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// ...
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iter = txn.Query(ctx, stmt2)
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// ...
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You must call Close when you are done with the transaction.
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Timestamps and Timestamp Bounds
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Cloud Spanner read-only transactions conceptually perform all their reads at a
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single moment in time, called the transaction's read timestamp. Once a read has
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started, you can call ReadOnlyTransaction's Timestamp method to obtain the read
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timestamp.
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By default, a transaction will pick the most recent time (a time where all
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previously committed transactions are visible) for its reads. This provides the
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freshest data, but may involve some delay. You can often get a quicker response
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if you are willing to tolerate "stale" data. You can control the read timestamp
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selected by a transaction by calling the WithTimestampBound method on the
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transaction before using it. For example, to perform a query on data that is at
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most one minute stale, use
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client.Single().
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WithTimestampBound(spanner.MaxStaleness(1*time.Minute)).
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Query(ctx, stmt)
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See the documentation of TimestampBound for more details.
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Mutations
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To write values to a Cloud Spanner database, construct a Mutation. The spanner
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package has functions for inserting, updating and deleting rows. Except for the
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Delete methods, which take a Key or KeyRange, each mutation-building function
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comes in three varieties.
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One takes lists of columns and values along with the table name:
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m1 := spanner.Insert("Users",
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[]string{"name", "email"},
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[]interface{}{"alice", "a@example.com"})
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One takes a map from column names to values:
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m2 := spanner.InsertMap("Users", map[string]interface{}{
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"name": "alice",
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"email": "a@example.com",
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})
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And the third accepts a struct value, and determines the columns from the
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struct field names:
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type User struct { Name, Email string }
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u := User{Name: "alice", Email: "a@example.com"}
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m3, err := spanner.InsertStruct("Users", u)
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Writes
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To apply a list of mutations to the database, use Apply:
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_, err := client.Apply(ctx, []*spanner.Mutation{m1, m2, m3})
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If you need to read before writing in a single transaction, use a
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ReadWriteTransaction. ReadWriteTransactions may abort and need to be retried.
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You pass in a function to ReadWriteTransaction, and the client will handle the
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retries automatically. Use the transaction's BufferWrite method to buffer
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mutations, which will all be executed at the end of the transaction:
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_, err := client.ReadWriteTransaction(ctx, func(txn *spanner.ReadWriteTransaction) error {
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var balance int64
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row, err := txn.ReadRow(ctx, "Accounts", spanner.Key{"alice"}, []string{"balance"})
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if err != nil {
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// This function will be called again if this is an IsAborted error.
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return err
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}
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if err := row.Column(0, &balance); err != nil {
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return err
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}
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if balance <= 10 {
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return errors.New("insufficient funds in account")
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}
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balance -= 10
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m := spanner.Update("Accounts", []string{"user", "balance"}, []interface{}{"alice", balance})
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txn.BufferWrite([]*spanner.Mutation{m})
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// The buffered mutation will be committed. If the commit
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// fails with an IsAborted error, this function will be called
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// again.
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return nil
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})
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Authentication
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See examples of authorization and authentication at
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https://godoc.org/cloud.google.com/go#pkg-examples.
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*/
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package spanner // import "cloud.google.com/go/spanner"
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