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/*
 * 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 nl.topicus.jdbc.shaded.com.liance with the License.
 * You may obtain a copy of the License at
 *
 *       http://www.apache.nl.topicus.jdbc.shaded.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 nl.topicus.jdbc.shaded.com.google.cloud.spanner;

import static nl.topicus.jdbc.shaded.com.google.nl.topicus.jdbc.shaded.com.on.base.Preconditions.checkNotNull;
import static nl.topicus.jdbc.shaded.com.google.nl.topicus.jdbc.shaded.com.on.base.Preconditions.checkState;

import nl.topicus.jdbc.shaded.com.google.nl.topicus.jdbc.shaded.com.on.collect.ImmutableList;
import nl.topicus.jdbc.shaded.com.google.protobuf.ListValue;

import java.nl.topicus.jdbc.shaded.io.Serializable;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import nl.topicus.jdbc.shaded.javax.annotation.Nullable;

/**
 * Represents an individual table modification to be applied to Cloud Spanner.
 *
 * 

The types of mutation that can be created are defined by {@link Op}. To construct a mutation, * use one of the builder methods. For example, to create a mutation that will insert a value of "x" * into "C1" and a value of "y" into "C2" of table "T", write the following code: * *

 *     Mutation m = Mutation.newInsertBuilder("T")
 *         .set("C1").to("x")
 *         .set("C2").to("y")
 *         .build();
 * 
* * Mutations are applied to a database by performing a standalone write or buffering them as part of * a transaction. TODO(user): Add links/code samples once the corresponding APIs are available. * *

{@code Mutation} instances are immutable. */ public final class Mutation implements Serializable { private static final long serialVersionUID = 1784900828296918555L; /** Enumerates the types of mutation that can be applied. */ public enum Op { /** * Inserts a new row in a table. If the row already exists, the write or transaction fails with * {@link ErrorCode#ALREADY_EXISTS}. */ INSERT, /** * Updates an existing row in a table. If the row does not already exist, the transaction fails * with error {@link ErrorCode#NOT_FOUND}. */ UPDATE, /** * Like {@link #INSERT}, except that if the row already exists, then its column values are * overwritten with the ones provided. Any column values not explicitly written are preserved. */ INSERT_OR_UPDATE, /** * Like {@link #INSERT}, except that if the row already exists, it is deleted, and the column * values provided are inserted instead. Unlike {@link #INSERT_OR_UPDATE}, this means any values * not explicitly written become {@code NULL}. */ REPLACE, /** Deletes rows from a table. Succeeds whether or not the named rows were present. */ DELETE, } private final String table; private final Op operation; private final ImmutableList columns; private final ImmutableList values; private final KeySet keySet; private Mutation( String table, Op operation, @Nullable ImmutableList columns, @Nullable ImmutableList values, @Nullable KeySet keySet) { this.table = table; this.operation = operation; this.columns = columns; this.values = values; this.keySet = keySet; } /** * Returns a builder that can be used to construct an {@link Op#INSERT} mutation against {@code * table}; see the {@code INSERT} documentation for mutation semantics. */ public static WriteBuilder newInsertBuilder(String table) { return new WriteBuilder(table, Op.INSERT); } /** * Returns a builder that can be used to construct an {@link Op#UPDATE} mutation against {@code * table}; see the {@code UPDATE} documentation for mutation semantics. */ public static WriteBuilder newUpdateBuilder(String table) { return new WriteBuilder(table, Op.UPDATE); } /** * Returns a builder that can be used to construct an {@link Op#INSERT_OR_UPDATE} mutation against * {@code table}; see the {@code INSERT_OR_UPDATE} documentation for mutation semantics. */ public static WriteBuilder newInsertOrUpdateBuilder(String table) { return new WriteBuilder(table, Op.INSERT_OR_UPDATE); } /** * Returns a builder that can be used to construct an {@link Op#REPLACE} mutation against {@code * table}; see the {@code REPLACE} documentation for mutation semantics. */ public static WriteBuilder newReplaceBuilder(String table) { return new WriteBuilder(table, Op.REPLACE); } /** * Returns a mutation that will delete the row with primary key {@code key}. Exactly equivalent to * {@code delete(table, KeySet.singleKey(key))}. */ public static Mutation delete(String table, Key key) { return delete(table, KeySet.singleKey(key)); } /** Returns a mutation that will delete all rows with primary keys covered by {@code keySet}. */ public static Mutation delete(String table, KeySet keySet) { return new Mutation(table, Op.DELETE, null, null, checkNotNull(keySet)); } /** * Builder for {@link Op#INSERT}, {@link Op#INSERT_OR_UPDATE}, {@link Op#UPDATE}, and {@link * Op#REPLACE} mutations. */ public static class WriteBuilder { private final String table; private final Op operation; private final ImmutableList.Builder columns; private final ImmutableList.Builder values; private final ValueBinder binder; private String currentColumn; private WriteBuilder(String table, Op operation) { this.table = checkNotNull(table); this.operation = operation; // Empty writes are sufficiently rare that it is not worth optimizing for that case. this.columns = ImmutableList.builder(); this.values = ImmutableList.builder(); class BinderImpl extends ValueBinder { @Override WriteBuilder handle(Value value) { checkBindingInProgress(true); columns.add(currentColumn); values.add(value); currentColumn = null; return WriteBuilder.this; } } this.binder = new BinderImpl(); } /** * Returns a binder to set the value of {@code columnName} that should be applied by the * mutation. */ public ValueBinder set(String columnName) { checkBindingInProgress(false); currentColumn = checkNotNull(columnName); return binder; } public Mutation build() { checkBindingInProgress(false); return new Mutation(table, operation, columns.build(), values.build(), null); } private void checkBindingInProgress(boolean expectInProgress) { if (expectInProgress) { checkState(currentColumn != null, "No binding currently active"); } else if (currentColumn != null) { throw new IllegalStateException("Incomplete binding for column " + currentColumn); } } } /** Returns the name of the table that this mutation will affect. */ public String getTable() { return table; } /** Returns the type of operation that this mutation will perform. */ public Op getOperation() { return operation; } /** * For all types except {@link Op#DELETE}, returns the columns that this mutation will affect. * * @throws IllegalStateException if {@code operation() == Op.DELETE} */ public Iterable getColumns() { checkState(operation != Op.DELETE, "columns() cannot be called for a DELETE mutation"); return columns; } /** * For all types except {@link Op#DELETE}, returns the values that this mutation will write. The * number of elements returned is always the same as the number returned by {@link #getColumns()}, * and the {@code i}th value corresponds to the {@code i}th column. * * @throws IllegalStateException if {@code operation() == Op.DELETE} */ public Iterable getValues() { checkState(operation != Op.DELETE, "values() cannot be called for a DELETE mutation"); return values; } /** * For all types except {@link Op#DELETE}, constructs a map from column name to value. This is * mainly intended as a convenience for testing; direct access via {@link #getColumns()} and * {@link #getValues()} is more efficient. * * @throws IllegalStateException if {@code operation() == Op.DELETE}, or if any duplicate columns * are present. Detection of duplicates does not consider case. */ public Map asMap() { checkState(operation != Op.DELETE, "asMap() cannot be called for a DELETE mutation"); LinkedHashMap map = new LinkedHashMap<>(); for (int i = 0; i < columns.size(); ++i) { Value existing = map.put(columns.get(i), values.get(i)); if (existing != null) { throw new IllegalStateException("Duplicate column: " + columns.get(i)); } } return Collections.unmodifiableMap(map); } /** * For {@link Op#DELETE} mutations, returns the key set that defines the rows to be deleted. * * @throws IllegalStateException if {@code operation() != Op.DELETE} */ public KeySet getKeySet() { checkState(operation == Op.DELETE, "keySet() can only be called for a DELETE mutation"); return keySet; } void toString(StringBuilder b) { String opName; boolean isWrite; switch (operation) { case INSERT: opName = "insert"; isWrite = true; break; case INSERT_OR_UPDATE: opName = "insert_or_update"; isWrite = true; break; case UPDATE: opName = "update"; isWrite = true; break; case REPLACE: opName = "replace"; isWrite = true; break; case DELETE: opName = "delete"; isWrite = false; break; default: throw new AssertionError("Unhandled Op: " + operation); } if (isWrite) { b.append(opName).append('(').append(table).append('{'); for (int i = 0; i < columns.size(); ++i) { if (i > 0) { b.append(','); } b.append(columns.get(i)); b.append('='); b.append(values.get(i)); } b.append("})"); } else { b.append("delete(").append(table); keySet.toString(b); b.append(')'); } } @Override public String toString() { StringBuilder b = new StringBuilder(); toString(b); return b.toString(); } @Override public boolean equals(Object o) { if (this == o) { return true; } if (o == null || getClass() != o.getClass()) { return false; } Mutation that = (Mutation) o; return operation == that.operation && Objects.equals(table, that.table) && Objects.equals(columns, that.columns) && Objects.equals(values, that.values) && Objects.equals(keySet, that.keySet); } @Override public int hashCode() { return Objects.hash(operation, table, columns, values, keySet); } static void toProto(Iterable mutations, List out) { Mutation last = null; // The mutation currently being built. nl.topicus.jdbc.shaded.com.google.spanner.v1.Mutation.Builder proto = null; // The "write" (!= DELETE) or "keySet" (==DELETE) for the last mutation encoded, for coalescing. nl.topicus.jdbc.shaded.com.google.spanner.v1.Mutation.Write.Builder write = null; nl.topicus.jdbc.shaded.com.google.spanner.v1.KeySet.Builder keySet = null; for (Mutation mutation : mutations) { if (mutation.operation == Op.DELETE) { if (last != null && last.operation == Op.DELETE && mutation.table.equals(last.table)) { mutation.keySet.appendToProto(keySet); } else { if (proto != null) { out.add(proto.build()); } proto = nl.topicus.jdbc.shaded.com.google.spanner.v1.Mutation.newBuilder(); nl.topicus.jdbc.shaded.com.google.spanner.v1.Mutation.Delete.Builder delete = proto.getDeleteBuilder().setTable(mutation.table); keySet = delete.getKeySetBuilder(); mutation.keySet.appendToProto(keySet); } write = null; } else { ListValue.Builder values = ListValue.newBuilder(); for (Value value : mutation.getValues()) { values.addValues(value.toProto()); } if (last != null && mutation.operation == last.operation && mutation.table.equals(last.table) && mutation.columns.equals(last.columns)) { // Same as previous mutation: coalesce values to reduce request size. write.addValues(values); } else { if (proto != null) { out.add(proto.build()); } proto = nl.topicus.jdbc.shaded.com.google.spanner.v1.Mutation.newBuilder(); switch (mutation.operation) { case INSERT: write = proto.getInsertBuilder(); break; case UPDATE: write = proto.getUpdateBuilder(); break; case INSERT_OR_UPDATE: write = proto.getInsertOrUpdateBuilder(); break; case REPLACE: write = proto.getReplaceBuilder(); break; default: throw new AssertionError("Impossible: " + mutation.operation); } write.setTable(mutation.table).addAllColumns(mutation.columns).addValues(values); } keySet = null; } last = mutation; } // Flush last item. if (proto != null) { out.add(proto.build()); } } }





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