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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.hadoop.hive.ql.plan;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.hive.common.JavaUtils;
import org.apache.hadoop.hive.conf.HiveConf;
import org.apache.hadoop.hive.conf.HiveConf.ConfVars;
import org.apache.hadoop.hive.llap.LlapOutputFormat;
import org.apache.hadoop.hive.metastore.MetaStoreUtils;
import org.apache.hadoop.hive.metastore.api.FieldSchema;
import org.apache.hadoop.hive.metastore.api.hive_metastoreConstants;
import org.apache.hadoop.hive.ql.exec.ColumnInfo;
import org.apache.hadoop.hive.ql.exec.RowSchema;
import org.apache.hadoop.hive.ql.exec.TableScanOperator;
import org.apache.hadoop.hive.ql.exec.Utilities;
import org.apache.hadoop.hive.ql.hooks.ReadEntity;
import org.apache.hadoop.hive.ql.io.AcidUtils;
import org.apache.hadoop.hive.ql.io.HiveOutputFormat;
import org.apache.hadoop.hive.ql.io.IgnoreKeyTextOutputFormat;
import org.apache.hadoop.hive.ql.io.RCFileInputFormat;
import org.apache.hadoop.hive.ql.io.RCFileOutputFormat;
import org.apache.hadoop.hive.ql.metadata.Hive;
import org.apache.hadoop.hive.ql.metadata.HiveException;
import org.apache.hadoop.hive.ql.metadata.HiveStorageHandler;
import org.apache.hadoop.hive.ql.metadata.HiveUtils;
import org.apache.hadoop.hive.ql.metadata.Partition;
import org.apache.hadoop.hive.ql.metadata.Table;
import org.apache.hadoop.hive.ql.parse.ParseContext;
import org.apache.hadoop.hive.ql.parse.SemanticAnalyzer;
import org.apache.hadoop.hive.ql.parse.SemanticException;
import org.apache.hadoop.hive.ql.parse.TypeCheckProcFactory;
import org.apache.hadoop.hive.ql.session.SessionState;
import org.apache.hadoop.hive.serde.serdeConstants;
import org.apache.hadoop.hive.serde2.DelimitedJSONSerDe;
import org.apache.hadoop.hive.serde2.Deserializer;
import org.apache.hadoop.hive.serde2.MetadataTypedColumnsetSerDe;
import org.apache.hadoop.hive.serde2.binarysortable.BinarySortableSerDe;
import org.apache.hadoop.hive.serde2.columnar.ColumnarSerDe;
import org.apache.hadoop.hive.serde2.lazy.LazySerDeParameters;
import org.apache.hadoop.hive.serde2.lazy.LazySimpleSerDe;
import org.apache.hadoop.hive.serde2.lazybinary.LazyBinarySerDe;
import org.apache.hadoop.hive.serde2.typeinfo.TypeInfo;
import org.apache.hadoop.hive.serde2.typeinfo.TypeInfoFactory;
import org.apache.hadoop.mapred.InputFormat;
import org.apache.hadoop.mapred.JobConf;
import org.apache.hadoop.mapred.OutputFormat;
import org.apache.hadoop.mapred.SequenceFileInputFormat;
import org.apache.hadoop.mapred.SequenceFileOutputFormat;
import org.apache.hadoop.mapred.TextInputFormat;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;
/**
* PlanUtils.
*
*/
public final class PlanUtils {
protected static final Logger LOG = LoggerFactory.getLogger("org.apache.hadoop.hive.ql.plan.PlanUtils");
private static long countForMapJoinDumpFilePrefix = 0;
/**
* ExpressionTypes.
*
*/
public static enum ExpressionTypes {
FIELD, JEXL
};
public static final String LLAP_OUTPUT_FORMAT_KEY = "Llap";
private static final String LLAP_OF_SH_CLASS = "org.apache.hadoop.hive.llap.LlapStorageHandler";
public static synchronized long getCountForMapJoinDumpFilePrefix() {
return countForMapJoinDumpFilePrefix++;
}
@SuppressWarnings("nls")
public static MapredWork getMapRedWork() {
return new MapredWork();
}
public static TableDesc getDefaultTableDesc(CreateTableDesc directoryDesc,
String cols, String colTypes ) {
TableDesc ret = getDefaultTableDesc(Integer.toString(Utilities.ctrlaCode), cols,
colTypes, false);;
if (directoryDesc == null) {
return ret;
}
try {
Properties properties = ret.getProperties();
if (directoryDesc.getFieldDelim() != null) {
properties.setProperty(
serdeConstants.FIELD_DELIM, directoryDesc.getFieldDelim());
properties.setProperty(
serdeConstants.SERIALIZATION_FORMAT, directoryDesc.getFieldDelim());
}
if (directoryDesc.getLineDelim() != null) {
properties.setProperty(
serdeConstants.LINE_DELIM, directoryDesc.getLineDelim());
}
if (directoryDesc.getCollItemDelim() != null) {
properties.setProperty(
serdeConstants.COLLECTION_DELIM, directoryDesc.getCollItemDelim());
}
if (directoryDesc.getMapKeyDelim() != null) {
properties.setProperty(
serdeConstants.MAPKEY_DELIM, directoryDesc.getMapKeyDelim());
}
if (directoryDesc.getFieldEscape() !=null) {
properties.setProperty(
serdeConstants.ESCAPE_CHAR, directoryDesc.getFieldEscape());
}
if (directoryDesc.getSerName() != null) {
properties.setProperty(
serdeConstants.SERIALIZATION_LIB, directoryDesc.getSerName());
}
if (directoryDesc.getSerdeProps() != null) {
properties.putAll(directoryDesc.getSerdeProps());
}
if (directoryDesc.getOutputFormat() != null){
ret.setOutputFileFormatClass(JavaUtils.loadClass(directoryDesc.getOutputFormat()));
}
if (directoryDesc.getNullFormat() != null) {
properties.setProperty(serdeConstants.SERIALIZATION_NULL_FORMAT,
directoryDesc.getNullFormat());
}
if (directoryDesc.getTblProps() != null) {
properties.putAll(directoryDesc.getTblProps());
}
} catch (ClassNotFoundException e) {
// mimicking behaviour in CreateTableDesc tableDesc creation
// returning null table description for output.
LOG.warn("Unable to find class in getDefaultTableDesc: " + e.getMessage(), e);
return null;
}
return ret;
}
/**
* Generate the table descriptor of MetadataTypedColumnsetSerDe with the
* separatorCode and column names (comma separated string).
*/
public static TableDesc getDefaultTableDesc(String separatorCode,
String columns) {
return getDefaultTableDesc(separatorCode, columns, false);
}
/**
* Generate the table descriptor of given serde with the separatorCode and
* column names (comma separated string).
*/
public static TableDesc getTableDesc(
Class extends Deserializer> serdeClass, String separatorCode,
String columns) {
return getTableDesc(serdeClass, separatorCode, columns, false);
}
/**
* Generate the table descriptor of MetadataTypedColumnsetSerDe with the
* separatorCode and column names (comma separated string), and whether the
* last column should take the rest of the line.
*/
public static TableDesc getDefaultTableDesc(String separatorCode,
String columns, boolean lastColumnTakesRestOfTheLine) {
return getDefaultTableDesc(separatorCode, columns, null,
lastColumnTakesRestOfTheLine);
}
/**
* Generate the table descriptor of the serde specified with the separatorCode
* and column names (comma separated string), and whether the last column
* should take the rest of the line.
*/
public static TableDesc getTableDesc(
Class extends Deserializer> serdeClass, String separatorCode,
String columns, boolean lastColumnTakesRestOfTheLine) {
return getTableDesc(serdeClass, separatorCode, columns, null,
lastColumnTakesRestOfTheLine);
}
/**
* Generate the table descriptor of MetadataTypedColumnsetSerDe with the
* separatorCode and column names (comma separated string), and whether the
* last column should take the rest of the line.
*/
public static TableDesc getDefaultTableDesc(String separatorCode,
String columns, String columnTypes, boolean lastColumnTakesRestOfTheLine) {
return getTableDesc(LazySimpleSerDe.class, separatorCode, columns,
columnTypes, lastColumnTakesRestOfTheLine);
}
public static TableDesc getTableDesc(
Class extends Deserializer> serdeClass, String separatorCode,
String columns, String columnTypes, boolean lastColumnTakesRestOfTheLine) {
return getTableDesc(serdeClass, separatorCode, columns, columnTypes,
lastColumnTakesRestOfTheLine, false);
}
public static TableDesc getTableDesc(
Class extends Deserializer> serdeClass, String separatorCode,
String columns, String columnTypes, boolean lastColumnTakesRestOfTheLine,
boolean useDelimitedJSON) {
return getTableDesc(serdeClass, separatorCode, columns, columnTypes,
lastColumnTakesRestOfTheLine, useDelimitedJSON, "TextFile");
}
public static TableDesc getTableDesc(
Class extends Deserializer> serdeClass, String separatorCode,
String columns, String columnTypes, boolean lastColumnTakesRestOfTheLine,
boolean useDelimitedJSON, String fileFormat) {
Properties properties = Utilities.makeProperties(
serdeConstants.SERIALIZATION_FORMAT, separatorCode, serdeConstants.LIST_COLUMNS,
columns);
if (!separatorCode.equals(Integer.toString(Utilities.ctrlaCode))) {
properties.setProperty(serdeConstants.FIELD_DELIM, separatorCode);
}
if (columnTypes != null) {
properties.setProperty(serdeConstants.LIST_COLUMN_TYPES, columnTypes);
}
if (lastColumnTakesRestOfTheLine) {
properties.setProperty(serdeConstants.SERIALIZATION_LAST_COLUMN_TAKES_REST,
"true");
}
// It is not a very clean way, and should be modified later - due to
// compatibility reasons,
// user sees the results as json for custom scripts and has no way for
// specifying that.
// Right now, it is hard-coded in the code
if (useDelimitedJSON) {
serdeClass = DelimitedJSONSerDe.class;
}
Class inputFormat, outputFormat;
// get the input & output file formats
if ("SequenceFile".equalsIgnoreCase(fileFormat)) {
inputFormat = SequenceFileInputFormat.class;
outputFormat = SequenceFileOutputFormat.class;
} else if ("RCFile".equalsIgnoreCase(fileFormat)) {
inputFormat = RCFileInputFormat.class;
outputFormat = RCFileOutputFormat.class;
assert serdeClass == ColumnarSerDe.class;
} else if (LLAP_OUTPUT_FORMAT_KEY.equalsIgnoreCase(fileFormat)) {
inputFormat = TextInputFormat.class;
outputFormat = LlapOutputFormat.class;
properties.setProperty(hive_metastoreConstants.META_TABLE_STORAGE, LLAP_OF_SH_CLASS);
} else { // use TextFile by default
inputFormat = TextInputFormat.class;
outputFormat = IgnoreKeyTextOutputFormat.class;
}
properties.setProperty(serdeConstants.SERIALIZATION_LIB, serdeClass.getName());
return new TableDesc(inputFormat, outputFormat, properties);
}
public static TableDesc getDefaultQueryOutputTableDesc(String cols, String colTypes,
String fileFormat, Class extends Deserializer> serdeClass) {
TableDesc tblDesc =
getTableDesc(serdeClass, "" + Utilities.ctrlaCode, cols, colTypes, false, false, fileFormat);
// enable escaping
tblDesc.getProperties().setProperty(serdeConstants.ESCAPE_CHAR, "\\");
tblDesc.getProperties().setProperty(serdeConstants.SERIALIZATION_ESCAPE_CRLF, "true");
// enable extended nesting levels
tblDesc.getProperties().setProperty(
LazySerDeParameters.SERIALIZATION_EXTEND_ADDITIONAL_NESTING_LEVELS, "true");
return tblDesc;
}
/**
* Generate a table descriptor from a createTableDesc.
*/
public static TableDesc getTableDesc(CreateTableDesc crtTblDesc, String cols,
String colTypes) {
TableDesc ret;
// Resolve storage handler (if any)
try {
HiveStorageHandler storageHandler = null;
if (crtTblDesc.getStorageHandler() != null) {
storageHandler = HiveUtils.getStorageHandler(
SessionState.getSessionConf(), crtTblDesc.getStorageHandler());
}
Class extends Deserializer> serdeClass = LazySimpleSerDe.class;
String separatorCode = Integer.toString(Utilities.ctrlaCode);
String columns = cols;
String columnTypes = colTypes;
boolean lastColumnTakesRestOfTheLine = false;
if (storageHandler != null) {
serdeClass = storageHandler.getSerDeClass();
} else if (crtTblDesc.getSerName() != null) {
serdeClass = JavaUtils.loadClass(crtTblDesc.getSerName());
}
if (crtTblDesc.getFieldDelim() != null) {
separatorCode = crtTblDesc.getFieldDelim();
}
ret = getTableDesc(serdeClass, separatorCode, columns, columnTypes,
lastColumnTakesRestOfTheLine, false);
// set other table properties
Properties properties = ret.getProperties();
if (crtTblDesc.getStorageHandler() != null) {
properties.setProperty(
org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_STORAGE,
crtTblDesc.getStorageHandler());
}
if (crtTblDesc.getCollItemDelim() != null) {
properties.setProperty(serdeConstants.COLLECTION_DELIM, crtTblDesc
.getCollItemDelim());
}
if (crtTblDesc.getMapKeyDelim() != null) {
properties.setProperty(serdeConstants.MAPKEY_DELIM, crtTblDesc
.getMapKeyDelim());
}
if (crtTblDesc.getFieldEscape() != null) {
properties.setProperty(serdeConstants.ESCAPE_CHAR, crtTblDesc
.getFieldEscape());
}
if (crtTblDesc.getLineDelim() != null) {
properties.setProperty(serdeConstants.LINE_DELIM, crtTblDesc.getLineDelim());
}
if (crtTblDesc.getNullFormat() != null) {
properties.setProperty(serdeConstants.SERIALIZATION_NULL_FORMAT,
crtTblDesc.getNullFormat());
}
if (crtTblDesc.getTableName() != null && crtTblDesc.getDatabaseName() != null) {
properties.setProperty(org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_NAME,
crtTblDesc.getTableName());
}
if (crtTblDesc.getTblProps() != null) {
properties.putAll(crtTblDesc.getTblProps());
}
if (crtTblDesc.getSerdeProps() != null) {
properties.putAll(crtTblDesc.getSerdeProps());
}
// replace the default input & output file format with those found in
// crtTblDesc
Class extends InputFormat> in_class;
if (storageHandler != null) {
in_class = storageHandler.getInputFormatClass();
} else {
in_class = JavaUtils.loadClass(crtTblDesc.getInputFormat());
}
Class extends OutputFormat> out_class;
if (storageHandler != null) {
out_class = storageHandler.getOutputFormatClass();
} else {
out_class = JavaUtils.loadClass(crtTblDesc.getOutputFormat());
}
ret.setInputFileFormatClass(in_class);
ret.setOutputFileFormatClass(out_class);
} catch (ClassNotFoundException e) {
throw new RuntimeException("Unable to find class in getTableDesc: " + e.getMessage(), e);
} catch (HiveException e) {
throw new RuntimeException("Error loading storage handler in getTableDesc: " + e.getMessage(), e);
}
return ret;
}
/**
* Generate the table descriptor of MetadataTypedColumnsetSerDe with the
* separatorCode. MetaDataTypedColumnsetSerDe is used because LazySimpleSerDe
* does not support a table with a single column "col" with type
* "array".
*/
public static TableDesc getDefaultTableDesc(String separatorCode) {
return new TableDesc(
TextInputFormat.class, IgnoreKeyTextOutputFormat.class, Utilities
.makeProperties(
org.apache.hadoop.hive.serde.serdeConstants.SERIALIZATION_FORMAT,separatorCode,
serdeConstants.SERIALIZATION_LIB,MetadataTypedColumnsetSerDe.class.getName()));
}
/**
* Generate the table descriptor for reduce key.
*/
public static TableDesc getReduceKeyTableDesc(List fieldSchemas,
String order, String nullOrder) {
return new TableDesc(
SequenceFileInputFormat.class, SequenceFileOutputFormat.class,
Utilities.makeProperties(serdeConstants.LIST_COLUMNS, MetaStoreUtils
.getColumnNamesFromFieldSchema(fieldSchemas),
serdeConstants.LIST_COLUMN_TYPES, MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.SERIALIZATION_SORT_ORDER, order,
serdeConstants.SERIALIZATION_NULL_SORT_ORDER, nullOrder,
serdeConstants.SERIALIZATION_LIB, BinarySortableSerDe.class.getName()));
}
/**
* Generate the table descriptor for Map-side join key.
*/
public static TableDesc getMapJoinKeyTableDesc(Configuration conf,
List fieldSchemas) {
if (HiveConf.getVar(conf, ConfVars.HIVE_EXECUTION_ENGINE).equals("tez")) {
// In tez we use a different way of transmitting the hash table.
// We basically use ReduceSinkOperators and set the transfer to
// be broadcast (instead of partitioned). As a consequence we use
// a different SerDe than in the MR mapjoin case.
StringBuilder order = new StringBuilder();
StringBuilder nullOrder = new StringBuilder();
for (FieldSchema f: fieldSchemas) {
order.append("+");
nullOrder.append("a");
}
return new TableDesc(
SequenceFileInputFormat.class, SequenceFileOutputFormat.class,
Utilities.makeProperties(serdeConstants.LIST_COLUMNS, MetaStoreUtils
.getColumnNamesFromFieldSchema(fieldSchemas),
serdeConstants.LIST_COLUMN_TYPES, MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.SERIALIZATION_SORT_ORDER, order.toString(),
serdeConstants.SERIALIZATION_NULL_SORT_ORDER, nullOrder.toString(),
serdeConstants.SERIALIZATION_LIB, BinarySortableSerDe.class.getName()));
} else {
return new TableDesc(SequenceFileInputFormat.class,
SequenceFileOutputFormat.class, Utilities.makeProperties("columns",
MetaStoreUtils.getColumnNamesFromFieldSchema(fieldSchemas),
"columns.types", MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.ESCAPE_CHAR, "\\",
serdeConstants.SERIALIZATION_LIB,LazyBinarySerDe.class.getName()));
}
}
/**
* Generate the table descriptor for Map-side join value.
*/
public static TableDesc getMapJoinValueTableDesc(
List fieldSchemas) {
return new TableDesc(SequenceFileInputFormat.class,
SequenceFileOutputFormat.class, Utilities.makeProperties(
serdeConstants.LIST_COLUMNS, MetaStoreUtils
.getColumnNamesFromFieldSchema(fieldSchemas),
serdeConstants.LIST_COLUMN_TYPES, MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.ESCAPE_CHAR, "\\",
serdeConstants.SERIALIZATION_LIB,LazyBinarySerDe.class.getName()));
}
/**
* Generate the table descriptor for intermediate files.
*/
public static TableDesc getIntermediateFileTableDesc(
List fieldSchemas) {
return new TableDesc(SequenceFileInputFormat.class,
SequenceFileOutputFormat.class, Utilities.makeProperties(
serdeConstants.LIST_COLUMNS, MetaStoreUtils
.getColumnNamesFromFieldSchema(fieldSchemas),
serdeConstants.LIST_COLUMN_TYPES, MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.ESCAPE_CHAR, "\\",
serdeConstants.SERIALIZATION_LIB,LazyBinarySerDe.class.getName()));
}
/**
* Generate the table descriptor for intermediate files.
*/
public static TableDesc getReduceValueTableDesc(List fieldSchemas) {
return new TableDesc(SequenceFileInputFormat.class,
SequenceFileOutputFormat.class, Utilities.makeProperties(
serdeConstants.LIST_COLUMNS, MetaStoreUtils
.getColumnNamesFromFieldSchema(fieldSchemas),
serdeConstants.LIST_COLUMN_TYPES, MetaStoreUtils
.getColumnTypesFromFieldSchema(fieldSchemas),
serdeConstants.ESCAPE_CHAR, "\\",
serdeConstants.SERIALIZATION_LIB,LazyBinarySerDe.class.getName()));
}
/**
* Convert the ColumnList to FieldSchema list.
*
* Adds union type for distinctColIndices.
*/
public static List getFieldSchemasFromColumnListWithLength(
List cols, List> distinctColIndices,
List outputColumnNames, int length,
String fieldPrefix) {
// last one for union column.
List schemas = new ArrayList(length + 1);
for (int i = 0; i < length; i++) {
schemas.add(MetaStoreUtils.getFieldSchemaFromTypeInfo(
fieldPrefix + outputColumnNames.get(i), cols.get(i).getTypeInfo()));
}
List unionTypes = new ArrayList();
for (List distinctCols : distinctColIndices) {
List names = new ArrayList();
List types = new ArrayList();
int numExprs = 0;
for (int i : distinctCols) {
names.add(HiveConf.getColumnInternalName(numExprs));
types.add(cols.get(i).getTypeInfo());
numExprs++;
}
unionTypes.add(TypeInfoFactory.getStructTypeInfo(names, types));
}
if (outputColumnNames.size() - length > 0) {
schemas.add(MetaStoreUtils.getFieldSchemaFromTypeInfo(
fieldPrefix + outputColumnNames.get(length),
TypeInfoFactory.getUnionTypeInfo(unionTypes)));
}
return schemas;
}
/**
* Convert the ColumnList to FieldSchema list.
*/
public static List getFieldSchemasFromColumnList(
List cols, List outputColumnNames, int start,
String fieldPrefix) {
List schemas = new ArrayList(cols.size());
for (int i = 0; i < cols.size(); i++) {
schemas.add(MetaStoreUtils.getFieldSchemaFromTypeInfo(fieldPrefix
+ outputColumnNames.get(i + start), cols.get(i).getTypeInfo()));
}
return schemas;
}
/**
* Convert the ColumnList to FieldSchema list.
*/
public static List getFieldSchemasFromColumnList(
List cols, String fieldPrefix) {
List schemas = new ArrayList(cols.size());
for (int i = 0; i < cols.size(); i++) {
schemas.add(MetaStoreUtils.getFieldSchemaFromTypeInfo(fieldPrefix + i,
cols.get(i).getTypeInfo()));
}
return schemas;
}
/**
* Convert the RowSchema to FieldSchema list.
*/
public static List getFieldSchemasFromRowSchema(RowSchema row,
String fieldPrefix) {
ArrayList c = row.getSignature();
return getFieldSchemasFromColumnInfo(c, fieldPrefix);
}
/**
* Convert the ColumnInfo to FieldSchema.
*/
public static List getFieldSchemasFromColumnInfo(
ArrayList cols, String fieldPrefix) {
if ((cols == null) || (cols.size() == 0)) {
return new ArrayList();
}
List schemas = new ArrayList(cols.size());
for (int i = 0; i < cols.size(); i++) {
String name = cols.get(i).getInternalName();
if (name.equals(String.valueOf(i))) {
name = fieldPrefix + name;
}
schemas.add(MetaStoreUtils.getFieldSchemaFromTypeInfo(name, cols.get(i)
.getType()));
}
return schemas;
}
public static List sortFieldSchemas(List schema) {
Collections.sort(schema, new Comparator() {
@Override
public int compare(FieldSchema o1, FieldSchema o2) {
return o1.getName().compareTo(o2.getName());
}
});
return schema;
}
/**
* Create the reduce sink descriptor.
*
* @param keyCols
* The columns to be stored in the key
* @param valueCols
* The columns to be stored in the value
* @param outputColumnNames
* The output columns names
* @param tag
* The tag for this reducesink
* @param partitionCols
* The columns for partitioning.
* @param numReducers
* The number of reducers, set to -1 for automatic inference based on
* input data size.
* @param writeType Whether this is an Acid write, and if so whether it is insert, update,
* or delete.
* @return The reduceSinkDesc object.
*/
public static ReduceSinkDesc getReduceSinkDesc(
ArrayList keyCols, ArrayList valueCols,
List outputColumnNames, boolean includeKeyCols, int tag,
ArrayList partitionCols, String order, String nullOrder,
int numReducers, AcidUtils.Operation writeType) {
return getReduceSinkDesc(keyCols, keyCols.size(), valueCols,
new ArrayList>(),
includeKeyCols ? outputColumnNames.subList(0, keyCols.size()) :
new ArrayList(),
includeKeyCols ? outputColumnNames.subList(keyCols.size(),
outputColumnNames.size()) : outputColumnNames,
includeKeyCols, tag, partitionCols, order, nullOrder, numReducers, writeType);
}
/**
* Create the reduce sink descriptor.
*
* @param keyCols
* The columns to be stored in the key
* @param numKeys
* number of distribution key numbers. Equals to group-by-key
* numbers usually.
* @param valueCols
* The columns to be stored in the value
* @param distinctColIndices
* column indices for distinct aggregate parameters
* @param outputKeyColumnNames
* The output key columns names
* @param outputValueColumnNames
* The output value columns names
* @param tag
* The tag for this reducesink
* @param partitionCols
* The columns for partitioning.
* @param numReducers
* The number of reducers, set to -1 for automatic inference based on
* input data size.
* @param writeType Whether this is an Acid write, and if so whether it is insert, update,
* or delete.
* @return The reduceSinkDesc object.
*/
public static ReduceSinkDesc getReduceSinkDesc(
final ArrayList keyCols, int numKeys,
ArrayList valueCols,
List> distinctColIndices,
List outputKeyColumnNames,
List outputValueColumnNames,
boolean includeKeyCols, int tag,
ArrayList partitionCols, String order, String nullOrder,
int numReducers, AcidUtils.Operation writeType) {
TableDesc keyTable = null;
TableDesc valueTable = null;
ArrayList outputKeyCols = new ArrayList();
ArrayList outputValCols = new ArrayList();
if (includeKeyCols) {
List keySchema = getFieldSchemasFromColumnListWithLength(
keyCols, distinctColIndices, outputKeyColumnNames, numKeys, "");
if (order.length() < outputKeyColumnNames.size()) {
order = order + "+";
}
if (nullOrder.length() < outputKeyColumnNames.size()) {
nullOrder = nullOrder + "a";
}
keyTable = getReduceKeyTableDesc(keySchema, order, nullOrder);
outputKeyCols.addAll(outputKeyColumnNames);
} else {
keyTable = getReduceKeyTableDesc(getFieldSchemasFromColumnList(
keyCols, "reducesinkkey"), order, nullOrder);
for (int i = 0; i < keyCols.size(); i++) {
outputKeyCols.add("reducesinkkey" + i);
}
}
valueTable = getReduceValueTableDesc(getFieldSchemasFromColumnList(
valueCols, outputValueColumnNames, 0, ""));
outputValCols.addAll(outputValueColumnNames);
return new ReduceSinkDesc(keyCols, numKeys, valueCols, outputKeyCols,
distinctColIndices, outputValCols,
tag, partitionCols, numReducers, keyTable,
valueTable, writeType);
}
/**
* Create the reduce sink descriptor.
*
* @param keyCols
* The columns to be stored in the key
* @param valueCols
* The columns to be stored in the value
* @param outputColumnNames
* The output columns names
* @param tag
* The tag for this reducesink
* @param numPartitionFields
* The first numPartitionFields of keyCols will be partition columns.
* If numPartitionFields=-1, then partition randomly.
* @param numReducers
* The number of reducers, set to -1 for automatic inference based on
* input data size.
* @param writeType Whether this is an Acid write, and if so whether it is insert, update,
* or delete.
* @return The reduceSinkDesc object.
*/
public static ReduceSinkDesc getReduceSinkDesc(
ArrayList keyCols, ArrayList valueCols,
List outputColumnNames, boolean includeKey, int tag,
int numPartitionFields, int numReducers, AcidUtils.Operation writeType)
throws SemanticException {
return getReduceSinkDesc(keyCols, keyCols.size(), valueCols,
new ArrayList>(),
includeKey ? outputColumnNames.subList(0, keyCols.size()) :
new ArrayList(),
includeKey ?
outputColumnNames.subList(keyCols.size(), outputColumnNames.size())
: outputColumnNames,
includeKey, tag, numPartitionFields, numReducers, writeType);
}
/**
* Create the reduce sink descriptor.
*
* @param keyCols
* The columns to be stored in the key
* @param numKeys number of distribution keys. Equals to group-by-key
* numbers usually.
* @param valueCols
* The columns to be stored in the value
* @param distinctColIndices
* column indices for distinct aggregates
* @param outputKeyColumnNames
* The output key columns names
* @param outputValueColumnNames
* The output value columns names
* @param tag
* The tag for this reducesink
* @param numPartitionFields
* The first numPartitionFields of keyCols will be partition columns.
* If numPartitionFields=-1, then partition randomly.
* @param numReducers
* The number of reducers, set to -1 for automatic inference based on
* input data size.
* @param writeType Whether this is an Acid write, and if so whether it is insert, update,
* or delete.
* @return The reduceSinkDesc object.
*/
public static ReduceSinkDesc getReduceSinkDesc(
ArrayList keyCols, int numKeys,
ArrayList valueCols,
List> distinctColIndices,
List outputKeyColumnNames, List outputValueColumnNames,
boolean includeKey, int tag,
int numPartitionFields, int numReducers, AcidUtils.Operation writeType)
throws SemanticException {
ArrayList partitionCols = new ArrayList();
if (numPartitionFields >= keyCols.size()) {
partitionCols.addAll(keyCols);
} else if (numPartitionFields >= 0) {
partitionCols.addAll(keyCols.subList(0, numPartitionFields));
} else {
// numPartitionFields = -1 means random partitioning
partitionCols.add(TypeCheckProcFactory.DefaultExprProcessor.getFuncExprNodeDesc("rand"));
}
StringBuilder order = new StringBuilder();
StringBuilder nullOrder = new StringBuilder();
for (int i = 0; i < keyCols.size(); i++) {
order.append("+");
nullOrder.append("a");
}
return getReduceSinkDesc(keyCols, numKeys, valueCols, distinctColIndices,
outputKeyColumnNames, outputValueColumnNames, includeKey, tag,
partitionCols, order.toString(), nullOrder.toString(), numReducers, writeType);
}
/**
* Loads the storage handler (if one exists) for the given table
* and invokes {@link HiveStorageHandler#configureInputJobProperties(TableDesc, java.util.Map)}.
*
* @param tableDesc table descriptor
*/
public static void configureInputJobPropertiesForStorageHandler(TableDesc tableDesc) {
configureJobPropertiesForStorageHandler(true,tableDesc);
}
/**
* Loads the storage handler (if one exists) for the given table
* and invokes {@link HiveStorageHandler#configureOutputJobProperties(TableDesc, java.util.Map)}.
*
* @param tableDesc table descriptor
*/
public static void configureOutputJobPropertiesForStorageHandler(TableDesc tableDesc) {
configureJobPropertiesForStorageHandler(false,tableDesc);
}
private static void configureJobPropertiesForStorageHandler(boolean input,
TableDesc tableDesc) {
if (tableDesc == null) {
return;
}
try {
HiveStorageHandler storageHandler =
HiveUtils.getStorageHandler(
Hive.get().getConf(),
tableDesc.getProperties().getProperty(
org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_STORAGE));
if (storageHandler != null) {
Map jobProperties = new LinkedHashMap();
if(input) {
try {
storageHandler.configureInputJobProperties(
tableDesc,
jobProperties);
} catch(AbstractMethodError e) {
LOG.info("configureInputJobProperties not found "+
"using configureTableJobProperties",e);
storageHandler.configureTableJobProperties(tableDesc, jobProperties);
}
}
else {
try {
storageHandler.configureOutputJobProperties(
tableDesc,
jobProperties);
} catch(AbstractMethodError e) {
LOG.info("configureOutputJobProperties not found"+
"using configureTableJobProperties",e);
storageHandler.configureTableJobProperties(tableDesc, jobProperties);
}
}
// Job properties are only relevant for non-native tables, so
// for native tables, leave it null to avoid cluttering up
// plans.
if (!jobProperties.isEmpty()) {
tableDesc.setJobProperties(jobProperties);
}
}
} catch (HiveException ex) {
throw new RuntimeException(ex);
}
}
public static void configureJobConf(TableDesc tableDesc, JobConf jobConf) {
String handlerClass = tableDesc.getProperties().getProperty(
org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_STORAGE);
try {
HiveStorageHandler storageHandler = HiveUtils.getStorageHandler(jobConf, handlerClass);
if (storageHandler != null) {
storageHandler.configureJobConf(tableDesc, jobConf);
}
} catch (HiveException e) {
throw new RuntimeException(e);
}
}
public static String stripQuotes(String val) {
if ((val.charAt(0) == '\'' && val.charAt(val.length() - 1) == '\'')
|| (val.charAt(0) == '\"' && val.charAt(val.length() - 1) == '\"')) {
val = val.substring(1, val.length() - 1);
}
return val;
}
/**
* Remove prefix from "Path -> Alias"
* This is required for testing.
* In order to verify that path is right, we need to display it in expected test result.
* But, mask pattern masks path with some patterns.
* So, we need to remove prefix from path which triggers mask pattern.
* @param origiKey
* @return
*/
public static String removePrefixFromWarehouseConfig(String origiKey) {
String prefix = SessionState.get().getConf().getVar(HiveConf.ConfVars.METASTOREWAREHOUSE);
if ((prefix != null) && (prefix.length() > 0)) {
//Local file system is using pfile:/// {@link ProxyLocalFileSystem}
prefix = prefix.replace("pfile:///", "pfile:/");
int index = origiKey.indexOf(prefix);
if (index > -1) {
origiKey = origiKey.substring(index + prefix.length());
}
}
return origiKey;
}
private PlanUtils() {
// prevent instantiation
}
public static ReadEntity addInput(Set inputs, ReadEntity newInput) {
return addInput(inputs,newInput,false);
}
// Add the input 'newInput' to the set of inputs for the query.
// The input may or may not be already present.
// The ReadEntity also contains the parents from it is derived (only populated
// in case of views). The equals method for ReadEntity does not compare the parents
// so that the same input with different parents cannot be added twice. If the input
// is already present, make sure the parents are added.
// Consider the query:
// select * from (select * from V2 union all select * from V3) subq;
// where both V2 and V3 depend on V1 (eg V2 : select * from V1, V3: select * from V1),
// addInput would be called twice for V1 (one with parent V2 and the other with parent V3).
// When addInput is called for the first time for V1, V1 (parent V2) is added to inputs.
// When addInput is called for the second time for V1, the input V1 from inputs is picked up,
// and it's parents are enhanced to include V2 and V3
// The inputs will contain: (V2, no parent), (V3, no parent), (V1, parents(V2, v3))
//
// If the ReadEntity is already present and another ReadEntity with same name is
// added, then the isDirect flag is updated to be the OR of values of both.
// mergeIsDirectFlag, need to merge isDirect flag even newInput does not have parent
public static ReadEntity addInput(Set inputs, ReadEntity newInput, boolean mergeIsDirectFlag) {
// If the input is already present, make sure the new parent is added to the input.
if (inputs.contains(newInput)) {
for (ReadEntity input : inputs) {
if (input.equals(newInput)) {
if ((newInput.getParents() != null) && (!newInput.getParents().isEmpty())) {
input.getParents().addAll(newInput.getParents());
input.setDirect(input.isDirect() || newInput.isDirect());
} else if (mergeIsDirectFlag) {
input.setDirect(input.isDirect() || newInput.isDirect());
}
return input;
}
}
assert false;
} else {
inputs.add(newInput);
return newInput;
}
// make compile happy
return null;
}
public static String getExprListString(Collection extends ExprNodeDesc> exprs) {
return getExprListString(exprs, false);
}
public static String getExprListString(Collection extends ExprNodeDesc> exprs, boolean userLevelExplain) {
StringBuilder sb = new StringBuilder();
boolean first = true;
for (ExprNodeDesc expr: exprs) {
if (!first) {
sb.append(", ");
} else {
first = false;
}
addExprToStringBuffer(expr, sb, userLevelExplain);
}
return sb.length() == 0 ? null : sb.toString();
}
public static void addExprToStringBuffer(ExprNodeDesc expr, Appendable sb, boolean userLevelExplain) {
try {
sb.append(expr.getExprString());
if (!userLevelExplain) {
sb.append(" (type: ");
sb.append(expr.getTypeString());
sb.append(")");
}
} catch (IOException e) {
throw new RuntimeException(e);
}
}
public static void addPartitionInputs(Collection parts, Collection inputs,
ReadEntity parentViewInfo, boolean isDirectRead) {
// Store the inputs in a HashMap since we can't get a ReadEntity from inputs since it is
// implemented as a set.ReadEntity is used as the key so that the HashMap has the same behavior
// of equals and hashCode
Map readEntityMap =
new LinkedHashMap(inputs.size());
for (ReadEntity input : inputs) {
readEntityMap.put(input, input);
}
for (Partition part : parts) {
ReadEntity newInput = null;
if (part.getTable().isPartitioned()) {
newInput = new ReadEntity(part, parentViewInfo, isDirectRead);
} else {
newInput = new ReadEntity(part.getTable(), parentViewInfo, isDirectRead);
}
if (readEntityMap.containsKey(newInput)) {
ReadEntity input = readEntityMap.get(newInput);
if ((newInput.getParents() != null) && (!newInput.getParents().isEmpty())) {
input.getParents().addAll(newInput.getParents());
input.setDirect(input.isDirect() || newInput.isDirect());
}
} else {
readEntityMap.put(newInput, newInput);
}
}
// Add the new ReadEntity that were added to readEntityMap in PlanUtils.addInput
if (inputs.size() != readEntityMap.size()) {
inputs.addAll(readEntityMap.keySet());
}
}
public static void addInputsForView(ParseContext parseCtx) throws HiveException {
Set inputs = parseCtx.getSemanticInputs();
for (Map.Entry entry : parseCtx.getTopOps().entrySet()) {
String alias = entry.getKey();
TableScanOperator topOp = entry.getValue();
ReadEntity parentViewInfo = getParentViewInfo(alias, parseCtx.getViewAliasToInput());
// Adds tables only for create view (PPD filter can be appended by outer query)
Table table = topOp.getConf().getTableMetadata();
PlanUtils.addInput(inputs, new ReadEntity(table, parentViewInfo));
}
}
public static ReadEntity getParentViewInfo(String alias_id,
Map viewAliasToInput) {
String[] aliases = alias_id.split(":");
String currentAlias = null;
ReadEntity currentInput = null;
// Find the immediate parent possible.
// For eg: for a query like 'select * from V3', where V3 -> V2, V2 -> V1, V1 -> T
// -> implies depends on.
// T's parent would be V1
for (int pos = 0; pos < aliases.length; pos++) {
currentAlias = currentAlias == null ? aliases[pos] : currentAlias + ":" + aliases[pos];
currentAlias = currentAlias.replace(SemanticAnalyzer.SUBQUERY_TAG_1, "")
.replace(SemanticAnalyzer.SUBQUERY_TAG_2, "");
ReadEntity input = viewAliasToInput.get(currentAlias);
if (input == null && currentInput != null) {
// To handle the case of - select * from (select * from V1) A;
// the currentInput != null check above is needed.
// the alias list that case would be A:V1:T. Lookup on A would return null,
// we need to go further to find the view inside it.
return currentInput;
}
currentInput = input;
}
return currentInput;
}
}