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A driver for Apache Cassandra 1.2+ that works exclusively with the Cassandra Query Language version 3 (CQL3) and Cassandra's binary protocol.

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/*
 * Copyright (C) 2012-2017 DataStax Inc.
 *
 * 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 com.datastax.driver.core;


import com.google.common.base.Predicate;
import com.google.common.collect.Iterables;

import java.util.*;

/**
 * Base class for Tables and Materialized Views metadata.
 */
public abstract class AbstractTableMetadata {

    static final Comparator columnMetadataComparator = new Comparator() {
        @Override
        public int compare(ColumnMetadata c1, ColumnMetadata c2) {
            return c1.getName().compareTo(c2.getName());
        }
    };

    // comparator for ordering tables and views by name.
    static final Comparator byNameComparator = new Comparator() {
        @Override
        public int compare(AbstractTableMetadata o1, AbstractTableMetadata o2) {
            return o1.getName().compareTo(o2.getName());
        }
    };

    static final Predicate isAscending = new Predicate() {
        @Override
        public boolean apply(ClusteringOrder o) {
            return o == ClusteringOrder.ASC;
        }
    };

    protected final KeyspaceMetadata keyspace;
    protected final String name;
    protected final UUID id;
    protected final List partitionKey;
    protected final List clusteringColumns;
    protected final Map columns;
    protected final TableOptionsMetadata options;
    protected final List clusteringOrder;
    protected final VersionNumber cassandraVersion;

    protected AbstractTableMetadata(KeyspaceMetadata keyspace,
                                    String name,
                                    UUID id,
                                    List partitionKey,
                                    List clusteringColumns,
                                    Map columns,
                                    TableOptionsMetadata options,
                                    List clusteringOrder,
                                    VersionNumber cassandraVersion) {
        this.keyspace = keyspace;
        this.name = name;
        this.id = id;
        this.partitionKey = partitionKey;
        this.clusteringColumns = clusteringColumns;
        this.columns = columns;
        this.options = options;
        this.clusteringOrder = clusteringOrder;
        this.cassandraVersion = cassandraVersion;
    }

    /**
     * Returns the name of this table.
     *
     * @return the name of this CQL table.
     */
    public String getName() {
        return name;
    }

    /**
     * Returns the unique id of this table.
     * 

* Note: this id is available in Cassandra 2.1 and above. It will be * {@code null} for earlier versions. * * @return the unique id of the table. */ public UUID getId() { return id; } /** * Returns the keyspace this table belong to. * * @return the keyspace metadata of the keyspace this table belong to. */ public KeyspaceMetadata getKeyspace() { return keyspace; } /** * Returns metadata on a column of this table. * * @param name the name of the column to retrieve ({@code name} will be * interpreted as a case-insensitive identifier unless enclosed in double-quotes, * see {@link Metadata#quote}). * @return the metadata for the column if it exists, or * {@code null} otherwise. */ public ColumnMetadata getColumn(String name) { return columns.get(Metadata.handleId(name)); } /** * Returns a list containing all the columns of this table. *

* The order of the columns in the list is consistent with * the order of the columns returned by a {@code SELECT * FROM thisTable}: * the first column is the partition key, next are the clustering * columns in their defined order, and then the rest of the * columns follow in alphabetic order. * * @return a list containing the metadata for the columns of this table. */ public List getColumns() { return new ArrayList(columns.values()); } /** * Returns the list of columns composing the primary key for this table. *

* A table will always at least have a partition key (that * may itself be one or more columns), so the returned list at least * has one element. * * @return the list of columns composing the primary key for this table. */ public List getPrimaryKey() { List pk = new ArrayList(partitionKey.size() + clusteringColumns.size()); pk.addAll(partitionKey); pk.addAll(clusteringColumns); return pk; } /** * Returns the list of columns composing the partition key for this table. *

* A table always has a partition key so the returned list has * at least one element. * * @return the list of columns composing the partition key for this table. */ public List getPartitionKey() { return Collections.unmodifiableList(partitionKey); } /** * Returns the list of clustering columns for this table. * * @return the list of clustering columns for this table. * If there is no clustering columns, an empty list is returned. */ public List getClusteringColumns() { return Collections.unmodifiableList(clusteringColumns); } /** * Returns the clustering order for this table. *

* The returned contains the clustering order of each clustering column. The * {@code i}th element of the result correspond to the order (ascending or * descending) of the {@code i}th clustering column (see * {@link #getClusteringColumns}). Note that a table defined without any * particular clustering order is equivalent to one for which all the * clustering keys are in ascending order. * * @return a list with the clustering order for each clustering column. */ public List getClusteringOrder() { return clusteringOrder; } /** * Returns the options for this table. * * @return the options for this table. */ public TableOptionsMetadata getOptions() { return options; } void add(ColumnMetadata column) { columns.put(column.getName(), column); } /** * Returns a {@code String} containing CQL queries representing this * table and the index on it. *

* In other words, this method returns the queries that would allow you to * recreate the schema of this table, along with the indexes and views defined on * this table, if any. *

* Note that the returned String is formatted to be human readable (for * some definition of human readable at least). * * @return the CQL queries representing this table schema as a {code * String}. */ public String exportAsString() { StringBuilder sb = new StringBuilder(); sb.append(asCQLQuery(true)); return sb.toString(); } /** * Returns a CQL query representing this table. *

* This method returns a single 'CREATE TABLE' query with the options * corresponding to this table definition. *

* Note that the returned string is a single line; the returned query * is not formatted in any way. * * @return the 'CREATE TABLE' query corresponding to this table. * @see #exportAsString */ public String asCQLQuery() { return asCQLQuery(false); } protected abstract String asCQLQuery(boolean formatted); protected StringBuilder appendOptions(StringBuilder sb, boolean formatted) { // Options sb.append("WITH "); if (options.isCompactStorage()) and(sb.append("COMPACT STORAGE"), formatted); if (!clusteringOrder.isEmpty()) and(appendClusteringOrder(sb), formatted); sb.append("read_repair_chance = ").append(options.getReadRepairChance()); and(sb, formatted).append("dclocal_read_repair_chance = ").append(options.getLocalReadRepairChance()); if (cassandraVersion.getMajor() < 2 || (cassandraVersion.getMajor() == 2 && cassandraVersion.getMinor() == 0)) and(sb, formatted).append("replicate_on_write = ").append(options.getReplicateOnWrite()); and(sb, formatted).append("gc_grace_seconds = ").append(options.getGcGraceInSeconds()); and(sb, formatted).append("bloom_filter_fp_chance = ").append(options.getBloomFilterFalsePositiveChance()); if (cassandraVersion.getMajor() < 2 || cassandraVersion.getMajor() == 2 && cassandraVersion.getMinor() < 1) and(sb, formatted).append("caching = '").append(options.getCaching().get("keys")).append('\''); else and(sb, formatted).append("caching = ").append(formatOptionMap(options.getCaching())); if (options.getComment() != null) and(sb, formatted).append("comment = '").append(options.getComment().replace("'", "''")).append('\''); and(sb, formatted).append("compaction = ").append(formatOptionMap(options.getCompaction())); and(sb, formatted).append("compression = ").append(formatOptionMap(options.getCompression())); if (cassandraVersion.getMajor() >= 2) { and(sb, formatted).append("default_time_to_live = ").append(options.getDefaultTimeToLive()); and(sb, formatted).append("speculative_retry = '").append(options.getSpeculativeRetry()).append('\''); if (options.getIndexInterval() != null) and(sb, formatted).append("index_interval = ").append(options.getIndexInterval()); } if (cassandraVersion.getMajor() > 2 || (cassandraVersion.getMajor() == 2 && cassandraVersion.getMinor() >= 1)) { and(sb, formatted).append("min_index_interval = ").append(options.getMinIndexInterval()); and(sb, formatted).append("max_index_interval = ").append(options.getMaxIndexInterval()); } if (cassandraVersion.getMajor() > 2) { and(sb, formatted).append("crc_check_chance = ").append(options.getCrcCheckChance()); } if (cassandraVersion.getMajor() > 3 || (cassandraVersion.getMajor() == 3 && cassandraVersion.getMinor() >= 8)) { and(sb, formatted).append("cdc = ").append(options.isCDC()); } sb.append(';'); return sb; } @Override public String toString() { return asCQLQuery(); } private StringBuilder appendClusteringOrder(StringBuilder sb) { sb.append("CLUSTERING ORDER BY ("); for (int i = 0; i < clusteringColumns.size(); i++) { if (i > 0) sb.append(", "); sb.append(Metadata.quoteIfNecessary(clusteringColumns.get(i).getName())).append(' ').append(clusteringOrder.get(i)); } return sb.append(')'); } private static String formatOptionMap(Map m) { StringBuilder sb = new StringBuilder(); sb.append("{ "); boolean first = true; for (Map.Entry entry : m.entrySet()) { if (first) first = false; else sb.append(", "); sb.append('\'').append(entry.getKey()).append('\''); sb.append(" : "); try { sb.append(Integer.parseInt(entry.getValue())); } catch (NumberFormatException e) { sb.append('\'').append(entry.getValue()).append('\''); } } sb.append(" }"); return sb.toString(); } private StringBuilder and(StringBuilder sb, boolean formatted) { return spaceOrNewLine(sb, formatted).append("AND "); } static StringBuilder newLine(StringBuilder sb, boolean formatted) { if (formatted) sb.append('\n'); return sb; } static StringBuilder spaceOrNewLine(StringBuilder sb, boolean formatted) { sb.append(formatted ? "\n " : ' '); return sb; } }





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