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/* 
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you 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 org.apache.parquet.hadoop;

import static java.lang.Boolean.TRUE;
import static org.apache.parquet.Preconditions.checkArgument;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Set;

import org.apache.hadoop.conf.Configurable;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.BlockLocation;
import org.apache.hadoop.fs.FileStatus;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.fs.PathFilter;
import org.apache.hadoop.mapred.JobConf;
import org.apache.hadoop.mapreduce.InputSplit;
import org.apache.hadoop.mapreduce.Job;
import org.apache.hadoop.mapreduce.JobContext;
import org.apache.hadoop.mapreduce.RecordReader;
import org.apache.hadoop.mapreduce.TaskAttemptContext;
import org.apache.hadoop.mapreduce.lib.input.FileInputFormat;

import org.apache.hadoop.mapreduce.lib.input.FileSplit;
import org.apache.parquet.Preconditions;
import org.apache.parquet.filter.UnboundRecordFilter;
import org.apache.parquet.filter2.compat.FilterCompat;
import org.apache.parquet.filter2.compat.FilterCompat.Filter;
import org.apache.parquet.filter2.compat.RowGroupFilter;
import org.apache.parquet.filter2.predicate.FilterPredicate;
import org.apache.parquet.hadoop.api.InitContext;
import org.apache.parquet.hadoop.api.ReadSupport;
import org.apache.parquet.hadoop.api.ReadSupport.ReadContext;
import org.apache.parquet.hadoop.metadata.BlockMetaData;
import org.apache.parquet.hadoop.metadata.ColumnChunkMetaData;
import org.apache.parquet.hadoop.metadata.GlobalMetaData;
import org.apache.parquet.hadoop.metadata.ParquetMetadata;
import org.apache.parquet.hadoop.util.ConfigurationUtil;
import org.apache.parquet.hadoop.util.ContextUtil;
import org.apache.parquet.hadoop.util.HiddenFileFilter;
import org.apache.parquet.hadoop.util.SerializationUtil;
import org.apache.parquet.io.ParquetDecodingException;
import org.apache.parquet.schema.MessageType;
import org.apache.parquet.schema.MessageTypeParser;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * The input format to read a Parquet file.
 *
 * It requires an implementation of {@link ReadSupport} to materialize the records.
 *
 * The requestedSchema will control how the original records get projected by the loader.
 * It must be a subset of the original schema. Only the columns needed to reconstruct the records with the requestedSchema will be scanned.
 *
 * @see #READ_SUPPORT_CLASS
 * @see #UNBOUND_RECORD_FILTER
 * @see #STRICT_TYPE_CHECKING
 * @see #FILTER_PREDICATE
 * @see #TASK_SIDE_METADATA
 *
 * @param  the type of the materialized records
 */
public class ParquetInputFormat extends FileInputFormat {

  private static final Logger LOG = LoggerFactory.getLogger(ParquetInputFormat.class);

  /**
   * key to configure the ReadSupport implementation
   */
  public static final String READ_SUPPORT_CLASS = "parquet.read.support.class";

  /**
   * key to configure the filter
   */
  public static final String UNBOUND_RECORD_FILTER = "parquet.read.filter";

  /**
   * key to configure type checking for conflicting schemas (default: true)
   */
  public static final String STRICT_TYPE_CHECKING = "parquet.strict.typing";

  /**
   * key to configure the filter predicate
   */
  public static final String FILTER_PREDICATE = "parquet.private.read.filter.predicate";

  /**
   * key to configure whether record-level filtering is enabled
   */
  public static final String RECORD_FILTERING_ENABLED = "parquet.filter.record-level.enabled";

  /**
   * key to configure whether row group stats filtering is enabled
   */
  public static final String STATS_FILTERING_ENABLED = "parquet.filter.stats.enabled";

  /**
   * key to configure whether row group dictionary filtering is enabled
   */
  public static final String DICTIONARY_FILTERING_ENABLED = "parquet.filter.dictionary.enabled";

  /**
   * key to configure whether column index filtering of pages is enabled
   */
  public static final String COLUMN_INDEX_FILTERING_ENABLED = "parquet.filter.columnindex.enabled";

  /**
   * key to configure whether page level checksum verification is enabled
   */
  public static final String PAGE_VERIFY_CHECKSUM_ENABLED = "parquet.page.verify-checksum.enabled";

  /**
   * key to turn on or off task side metadata loading (default true)
   * if true then metadata is read on the task side and some tasks may finish immediately.
   * if false metadata is read on the client which is slower if there is a lot of metadata but tasks will only be spawn if there is work to do.
   */
  public static final String TASK_SIDE_METADATA = "parquet.task.side.metadata";

  /**
   * key to turn off file splitting. See PARQUET-246.
   */
  public static final String SPLIT_FILES = "parquet.split.files";

  private static final int MIN_FOOTER_CACHE_SIZE = 100;

  public static void setTaskSideMetaData(Job job,  boolean taskSideMetadata) {
    ContextUtil.getConfiguration(job).setBoolean(TASK_SIDE_METADATA, taskSideMetadata);
  }

  public static boolean isTaskSideMetaData(Configuration configuration) {
    return configuration.getBoolean(TASK_SIDE_METADATA, TRUE);
  }

  public static void setReadSupportClass(Job job,  Class readSupportClass) {
    ContextUtil.getConfiguration(job).set(READ_SUPPORT_CLASS, readSupportClass.getName());
  }

  public static void setUnboundRecordFilter(Job job, Class filterClass) {
    Configuration conf = ContextUtil.getConfiguration(job);
    checkArgument(getFilterPredicate(conf) == null,
        "You cannot provide an UnboundRecordFilter after providing a FilterPredicate");

    conf.set(UNBOUND_RECORD_FILTER, filterClass.getName());
  }

  /**
   * @param configuration a configuration
   * @return an unbound record filter class
   * @deprecated use {@link #getFilter(Configuration)}
   */
  @Deprecated
  public static Class getUnboundRecordFilter(Configuration configuration) {
    return ConfigurationUtil.getClassFromConfig(configuration, UNBOUND_RECORD_FILTER, UnboundRecordFilter.class);
  }

  private static UnboundRecordFilter getUnboundRecordFilterInstance(Configuration configuration) {
    Class clazz = ConfigurationUtil.getClassFromConfig(configuration, UNBOUND_RECORD_FILTER, UnboundRecordFilter.class);
    if (clazz == null) { return null; }

    try {
      UnboundRecordFilter unboundRecordFilter = (UnboundRecordFilter) clazz.newInstance();

      if (unboundRecordFilter instanceof Configurable) {
        ((Configurable)unboundRecordFilter).setConf(configuration);
      }

      return unboundRecordFilter;
    } catch (InstantiationException e) {
      throw new BadConfigurationException("could not instantiate unbound record filter class", e);
    } catch (IllegalAccessException e) {
      throw new BadConfigurationException("could not instantiate unbound record filter class", e);
    }
  }

  public static void setReadSupportClass(JobConf conf, Class readSupportClass) {
    conf.set(READ_SUPPORT_CLASS, readSupportClass.getName());
  }

  public static Class getReadSupportClass(Configuration configuration) {
    return ConfigurationUtil.getClassFromConfig(configuration, READ_SUPPORT_CLASS, ReadSupport.class);
  }

  public static void setFilterPredicate(Configuration configuration, FilterPredicate filterPredicate) {
    checkArgument(getUnboundRecordFilter(configuration) == null,
        "You cannot provide a FilterPredicate after providing an UnboundRecordFilter");

    configuration.set(FILTER_PREDICATE + ".human.readable", filterPredicate.toString());
    try {
      SerializationUtil.writeObjectToConfAsBase64(FILTER_PREDICATE, filterPredicate, configuration);
    } catch (IOException e) {
      throw new RuntimeException(e);
    }
  }

  private static FilterPredicate getFilterPredicate(Configuration configuration) {
    try {
      return SerializationUtil.readObjectFromConfAsBase64(FILTER_PREDICATE, configuration);
    } catch (IOException e) {
      throw new RuntimeException(e);
    }
  }

  /**
   * Returns a non-null Filter, which is a wrapper around either a
   * FilterPredicate, an UnboundRecordFilter, or a no-op filter.
   *
   * @param conf a configuration
   * @return a filter for the unbound record filter specified in conf
   */
  public static Filter getFilter(Configuration conf) {
    return FilterCompat.get(getFilterPredicate(conf), getUnboundRecordFilterInstance(conf));
  }

  private LruCache footersCache;

  private final Class> readSupportClass;

  /**
   * Hadoop will instantiate using this constructor
   */
  public ParquetInputFormat() {
    this.readSupportClass = null;
  }

  /**
   * Constructor for subclasses, such as AvroParquetInputFormat, or wrappers.
   * 

* Subclasses and wrappers may use this constructor to set the ReadSupport * class that will be used when reading instead of requiring the user to set * the read support property in their configuration. * * @param readSupportClass a ReadSupport subclass * @param the Java read support type */ public > ParquetInputFormat(Class readSupportClass) { this.readSupportClass = readSupportClass; } /** * {@inheritDoc} */ @Override public RecordReader createRecordReader( InputSplit inputSplit, TaskAttemptContext taskAttemptContext) throws IOException, InterruptedException { Configuration conf = ContextUtil.getConfiguration(taskAttemptContext); ReadSupport readSupport = getReadSupport(conf); return new ParquetRecordReader(readSupport, getFilter(conf)); } /** * @param configuration to find the configuration for the read support * @return the configured read support * @deprecated use getReadSupportInstance static methods instead */ @Deprecated @SuppressWarnings("unchecked") ReadSupport getReadSupport(Configuration configuration){ return getReadSupportInstance(readSupportClass == null ? (Class>) getReadSupportClass(configuration) : readSupportClass); } /** * @param configuration to find the configuration for the read support * @param the Java type of objects created by the ReadSupport * @return the configured read support */ @SuppressWarnings("unchecked") public static ReadSupport getReadSupportInstance(Configuration configuration){ return getReadSupportInstance( (Class>) getReadSupportClass(configuration)); } /** * @param readSupportClass to instantiate * @param the Java type of objects created by the ReadSupport * @return the configured read support */ @SuppressWarnings("unchecked") static ReadSupport getReadSupportInstance( Class> readSupportClass){ try { return readSupportClass.newInstance(); } catch (InstantiationException e) { throw new BadConfigurationException("could not instantiate read support class", e); } catch (IllegalAccessException e) { throw new BadConfigurationException("could not instantiate read support class", e); } } @Override protected boolean isSplitable(JobContext context, Path filename) { return ContextUtil.getConfiguration(context).getBoolean(SPLIT_FILES, true); } /** * {@inheritDoc} */ @Override public List getSplits(JobContext jobContext) throws IOException { Configuration configuration = ContextUtil.getConfiguration(jobContext); List splits = new ArrayList(); if (isTaskSideMetaData(configuration)) { // Although not required by the API, some clients may depend on always // receiving ParquetInputSplit. Translation is required at some point. for (InputSplit split : super.getSplits(jobContext)) { Preconditions.checkArgument(split instanceof FileSplit, "Cannot wrap non-FileSplit: " + split); splits.add(ParquetInputSplit.from((FileSplit) split)); } return splits; } else { splits.addAll(getSplits(configuration, getFooters(jobContext))); } return splits; } /** * @param configuration the configuration to connect to the file system * @param footers the footers of the files to read * @return the splits for the footers * @throws IOException if there is an error while reading * @deprecated split planning using file footers will be removed */ @Deprecated public List getSplits(Configuration configuration, List

footers) throws IOException { boolean strictTypeChecking = configuration.getBoolean(STRICT_TYPE_CHECKING, true); final long maxSplitSize = configuration.getLong("mapred.max.split.size", Long.MAX_VALUE); final long minSplitSize = Math.max(getFormatMinSplitSize(), configuration.getLong("mapred.min.split.size", 0L)); if (maxSplitSize < 0 || minSplitSize < 0) { throw new ParquetDecodingException("maxSplitSize or minSplitSize should not be negative: maxSplitSize = " + maxSplitSize + "; minSplitSize = " + minSplitSize); } GlobalMetaData globalMetaData = ParquetFileWriter.getGlobalMetaData(footers, strictTypeChecking); ReadContext readContext = getReadSupport(configuration).init(new InitContext( configuration, globalMetaData.getKeyValueMetaData(), globalMetaData.getSchema())); return new ClientSideMetadataSplitStrategy().getSplits( configuration, footers, maxSplitSize, minSplitSize, readContext); } /* * This is to support multi-level/recursive directory listing until * MAPREDUCE-1577 is fixed. */ @Override protected List listStatus(JobContext jobContext) throws IOException { return getAllFileRecursively(super.listStatus(jobContext), ContextUtil.getConfiguration(jobContext)); } private static List getAllFileRecursively( List files, Configuration conf) throws IOException { List result = new ArrayList(); for (FileStatus file : files) { if (file.isDir()) { Path p = file.getPath(); FileSystem fs = p.getFileSystem(conf); staticAddInputPathRecursively(result, fs, p, HiddenFileFilter.INSTANCE); } else { result.add(file); } } LOG.info("Total input paths to process : {}", result.size()); return result; } private static void staticAddInputPathRecursively(List result, FileSystem fs, Path path, PathFilter inputFilter) throws IOException { for (FileStatus stat: fs.listStatus(path, inputFilter)) { if (stat.isDir()) { staticAddInputPathRecursively(result, fs, stat.getPath(), inputFilter); } else { result.add(stat); } } } /** * @param jobContext the current job context * @return the footers for the files * @throws IOException if there is an error while reading */ public List
getFooters(JobContext jobContext) throws IOException { List statuses = listStatus(jobContext); if (statuses.isEmpty()) { return Collections.emptyList(); } Configuration config = ContextUtil.getConfiguration(jobContext); // Use LinkedHashMap to preserve the insertion order and ultimately to return the list of // footers in the same order as the list of file statuses returned from listStatus() Map footersMap = new LinkedHashMap(); Set missingStatuses = new HashSet(); Map missingStatusesMap = new HashMap(missingStatuses.size()); if (footersCache == null) { footersCache = new LruCache(Math.max(statuses.size(), MIN_FOOTER_CACHE_SIZE)); } for (FileStatus status : statuses) { FileStatusWrapper statusWrapper = new FileStatusWrapper(status); FootersCacheValue cacheEntry = footersCache.getCurrentValue(statusWrapper); if (LOG.isDebugEnabled()) { LOG.debug("Cache entry " + (cacheEntry == null ? "not " : "") + " found for '" + status.getPath() + "'"); } if (cacheEntry != null) { footersMap.put(statusWrapper, cacheEntry.getFooter()); } else { footersMap.put(statusWrapper, null); missingStatuses.add(status); missingStatusesMap.put(status.getPath(), statusWrapper); } } LOG.debug("found {} footers in cache and adding up to {} missing footers to the cache", footersMap.size() ,missingStatuses.size()); if (!missingStatuses.isEmpty()) { List
newFooters = getFooters(config, missingStatuses); for (Footer newFooter : newFooters) { // Use the original file status objects to make sure we store a // conservative (older) modification time (i.e. in case the files and // footers were modified and it's not clear which version of the footers // we have) FileStatusWrapper fileStatus = missingStatusesMap.get(newFooter.getFile()); footersCache.put(fileStatus, new FootersCacheValue(fileStatus, newFooter)); } } List
footers = new ArrayList
(statuses.size()); for (Entry footerEntry : footersMap.entrySet()) { Footer footer = footerEntry.getValue(); if (footer == null) { // Footer was originally missing, so get it from the cache again footers.add(footersCache.getCurrentValue(footerEntry.getKey()).getFooter()); } else { footers.add(footer); } } return footers; } public List
getFooters(Configuration configuration, List statuses) throws IOException { return getFooters(configuration, (Collection)statuses); } /** * the footers for the files * @param configuration to connect to the file system * @param statuses the files to open * @return the footers of the files * @throws IOException if there is an error while reading */ public List
getFooters(Configuration configuration, Collection statuses) throws IOException { LOG.debug("reading {} files", statuses.size()); boolean taskSideMetaData = isTaskSideMetaData(configuration); return ParquetFileReader.readAllFootersInParallelUsingSummaryFiles(configuration, statuses, taskSideMetaData); } /** * @param jobContext the current job context * @return the merged metadata from the footers * @throws IOException if there is an error while reading */ public GlobalMetaData getGlobalMetaData(JobContext jobContext) throws IOException { return ParquetFileWriter.getGlobalMetaData(getFooters(jobContext)); } /** * A simple wrapper around {@link org.apache.parquet.hadoop.Footer} that also includes a * modification time associated with that footer. The modification time is * used to determine whether the footer is still current. */ static final class FootersCacheValue implements LruCache.Value { private final long modificationTime; private final Footer footer; public FootersCacheValue(FileStatusWrapper status, Footer footer) { this.modificationTime = status.getModificationTime(); this.footer = new Footer(footer.getFile(), footer.getParquetMetadata()); } @Override public boolean isCurrent(FileStatusWrapper key) { long currentModTime = key.getModificationTime(); boolean isCurrent = modificationTime >= currentModTime; if (LOG.isDebugEnabled() && !isCurrent) { LOG.debug("The cache value for '{}' is not current: cached modification time={}, current modification time: {}", key, modificationTime, currentModTime); } return isCurrent; } public Footer getFooter() { return footer; } @Override public boolean isNewerThan(FootersCacheValue otherValue) { return otherValue == null || modificationTime > otherValue.modificationTime; } public Path getPath() { return footer.getFile(); } } /** * A simple wrapper around {@link org.apache.hadoop.fs.FileStatus} with a * meaningful "toString()" method */ static final class FileStatusWrapper { private final FileStatus status; public FileStatusWrapper(FileStatus fileStatus) { if (fileStatus == null) { throw new IllegalArgumentException("FileStatus object cannot be null"); } status = fileStatus; } public long getModificationTime() { return status.getModificationTime(); } @Override public int hashCode() { return status.hashCode(); } @Override public boolean equals(Object other) { return other instanceof FileStatusWrapper && status.equals(((FileStatusWrapper) other).status); } @Override public String toString() { return status.getPath().toString(); } } } class ClientSideMetadataSplitStrategy { //Wrapper of hdfs blocks, keep track of which HDFS block is being used private static class HDFSBlocks { BlockLocation[] hdfsBlocks; int currentStartHdfsBlockIndex = 0;//the hdfs block index corresponding to the start of a row group int currentMidPointHDFSBlockIndex = 0;// the hdfs block index corresponding to the mid-point of a row group, a split might be created only when the midpoint of the rowgroup enters a new hdfs block private HDFSBlocks(BlockLocation[] hdfsBlocks) { this.hdfsBlocks = hdfsBlocks; Comparator comparator = new Comparator() { @Override public int compare(BlockLocation b1, BlockLocation b2) { return Long.signum(b1.getOffset() - b2.getOffset()); } }; Arrays.sort(hdfsBlocks, comparator); } private long getHDFSBlockEndingPosition(int hdfsBlockIndex) { BlockLocation hdfsBlock = hdfsBlocks[hdfsBlockIndex]; return hdfsBlock.getOffset() + hdfsBlock.getLength() - 1; } /** * @param rowGroupMetadata * @return true if the mid point of row group is in a new hdfs block, and also move the currentHDFSBlock pointer to the correct index that contains the row group; * return false if the mid point of row group is in the same hdfs block */ private boolean checkBelongingToANewHDFSBlock(BlockMetaData rowGroupMetadata) { boolean isNewHdfsBlock = false; long rowGroupMidPoint = rowGroupMetadata.getStartingPos() + (rowGroupMetadata.getCompressedSize() / 2); //if mid point is not in the current HDFS block any more, return true while (rowGroupMidPoint > getHDFSBlockEndingPosition(currentMidPointHDFSBlockIndex)) { isNewHdfsBlock = true; currentMidPointHDFSBlockIndex++; if (currentMidPointHDFSBlockIndex >= hdfsBlocks.length) throw new ParquetDecodingException("the row group is not in hdfs blocks in the file: midpoint of row groups is " + rowGroupMidPoint + ", the end of the hdfs block is " + getHDFSBlockEndingPosition(currentMidPointHDFSBlockIndex - 1)); } while (rowGroupMetadata.getStartingPos() > getHDFSBlockEndingPosition(currentStartHdfsBlockIndex)) { currentStartHdfsBlockIndex++; if (currentStartHdfsBlockIndex >= hdfsBlocks.length) throw new ParquetDecodingException("The row group does not start in this file: row group offset is " + rowGroupMetadata.getStartingPos() + " but the end of hdfs blocks of file is " + getHDFSBlockEndingPosition(currentStartHdfsBlockIndex)); } return isNewHdfsBlock; } public BlockLocation getCurrentBlock() { return hdfsBlocks[currentStartHdfsBlockIndex]; } } static class SplitInfo { List rowGroups = new ArrayList(); BlockLocation hdfsBlock; long compressedByteSize = 0L; public SplitInfo(BlockLocation currentBlock) { this.hdfsBlock = currentBlock; } private void addRowGroup(BlockMetaData rowGroup) { this.rowGroups.add(rowGroup); this.compressedByteSize += rowGroup.getCompressedSize(); } public long getCompressedByteSize() { return compressedByteSize; } public List getRowGroups() { return rowGroups; } int getRowGroupCount() { return rowGroups.size(); } public ParquetInputSplit getParquetInputSplit(FileStatus fileStatus, String requestedSchema, Map readSupportMetadata) throws IOException { MessageType requested = MessageTypeParser.parseMessageType(requestedSchema); long length = 0; for (BlockMetaData block : this.getRowGroups()) { List columns = block.getColumns(); for (ColumnChunkMetaData column : columns) { if (requested.containsPath(column.getPath().toArray())) { length += column.getTotalSize(); } } } BlockMetaData lastRowGroup = this.getRowGroups().get(this.getRowGroupCount() - 1); long end = lastRowGroup.getStartingPos() + lastRowGroup.getTotalByteSize(); long[] rowGroupOffsets = new long[this.getRowGroupCount()]; for (int i = 0; i < rowGroupOffsets.length; i++) { rowGroupOffsets[i] = this.getRowGroups().get(i).getStartingPos(); } return new ParquetInputSplit( fileStatus.getPath(), hdfsBlock.getOffset(), end, length, hdfsBlock.getHosts(), rowGroupOffsets ); } } private static final Logger LOG = LoggerFactory.getLogger(ClientSideMetadataSplitStrategy.class); List getSplits(Configuration configuration, List
footers, long maxSplitSize, long minSplitSize, ReadContext readContext) throws IOException { List splits = new ArrayList(); Filter filter = ParquetInputFormat.getFilter(configuration); long rowGroupsDropped = 0; long totalRowGroups = 0; for (Footer footer : footers) { final Path file = footer.getFile(); LOG.debug("{}", file); FileSystem fs = file.getFileSystem(configuration); FileStatus fileStatus = fs.getFileStatus(file); ParquetMetadata parquetMetaData = footer.getParquetMetadata(); List blocks = parquetMetaData.getBlocks(); List filteredBlocks; totalRowGroups += blocks.size(); filteredBlocks = RowGroupFilter.filterRowGroups(filter, blocks, parquetMetaData.getFileMetaData().getSchema()); rowGroupsDropped += blocks.size() - filteredBlocks.size(); if (filteredBlocks.isEmpty()) { continue; } BlockLocation[] fileBlockLocations = fs.getFileBlockLocations(fileStatus, 0, fileStatus.getLen()); splits.addAll( generateSplits( filteredBlocks, fileBlockLocations, fileStatus, readContext.getRequestedSchema().toString(), readContext.getReadSupportMetadata(), minSplitSize, maxSplitSize) ); } if (rowGroupsDropped > 0 && totalRowGroups > 0) { int percentDropped = (int) ((((double) rowGroupsDropped) / totalRowGroups) * 100); LOG.info("Dropping {} row groups that do not pass filter predicate! ({}%)", rowGroupsDropped, percentDropped); } else { LOG.info("There were no row groups that could be dropped due to filter predicates"); } return splits; } /** * groups together all the data blocks for the same HDFS block * * @param rowGroupBlocks data blocks (row groups) * @param hdfsBlocksArray hdfs blocks * @param fileStatus the containing file * @param requestedSchema the schema requested by the user * @param readSupportMetadata the metadata provided by the readSupport implementation in init * @param minSplitSize the mapred.min.split.size * @param maxSplitSize the mapred.max.split.size * @return the splits (one per HDFS block) * @throws IOException If hosts can't be retrieved for the HDFS block */ static List generateSplits( List rowGroupBlocks, BlockLocation[] hdfsBlocksArray, FileStatus fileStatus, String requestedSchema, Map readSupportMetadata, long minSplitSize, long maxSplitSize) throws IOException { List splitRowGroups = generateSplitInfo(rowGroupBlocks, hdfsBlocksArray, minSplitSize, maxSplitSize); //generate splits from rowGroups of each split List resultSplits = new ArrayList(); for (SplitInfo splitInfo : splitRowGroups) { ParquetInputSplit split = splitInfo.getParquetInputSplit(fileStatus, requestedSchema, readSupportMetadata); resultSplits.add(split); } return resultSplits; } static List generateSplitInfo( List rowGroupBlocks, BlockLocation[] hdfsBlocksArray, long minSplitSize, long maxSplitSize) { List splitRowGroups; if (maxSplitSize < minSplitSize || maxSplitSize < 0 || minSplitSize < 0) { throw new ParquetDecodingException("maxSplitSize and minSplitSize should be positive and max should be greater or equal to the minSplitSize: maxSplitSize = " + maxSplitSize + "; minSplitSize is " + minSplitSize); } HDFSBlocks hdfsBlocks = new HDFSBlocks(hdfsBlocksArray); hdfsBlocks.checkBelongingToANewHDFSBlock(rowGroupBlocks.get(0)); SplitInfo currentSplit = new SplitInfo(hdfsBlocks.getCurrentBlock()); //assign rowGroups to splits splitRowGroups = new ArrayList(); checkSorted(rowGroupBlocks);//assert row groups are sorted for (BlockMetaData rowGroupMetadata : rowGroupBlocks) { if ((hdfsBlocks.checkBelongingToANewHDFSBlock(rowGroupMetadata) && currentSplit.getCompressedByteSize() >= minSplitSize && currentSplit.getCompressedByteSize() > 0) || currentSplit.getCompressedByteSize() >= maxSplitSize) { //create a new split splitRowGroups.add(currentSplit);//finish previous split currentSplit = new SplitInfo(hdfsBlocks.getCurrentBlock()); } currentSplit.addRowGroup(rowGroupMetadata); } if (currentSplit.getRowGroupCount() > 0) { splitRowGroups.add(currentSplit); } return splitRowGroups; } private static void checkSorted(List rowGroupBlocks) { long previousOffset = 0L; for(BlockMetaData rowGroup: rowGroupBlocks) { long currentOffset = rowGroup.getStartingPos(); if (currentOffset < previousOffset) { throw new ParquetDecodingException("row groups are not sorted: previous row groups starts at " + previousOffset + ", current row group starts at " + currentOffset); } } } }




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