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# include <experimental/optional>
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# include <DataStreams/ExpressionBlockInputStream.h>
# include <DataStreams/FilterBlockInputStream.h>
# include <DataStreams/LimitBlockInputStream.h>
# include <DataStreams/LimitByBlockInputStream.h>
# include <DataStreams/PartialSortingBlockInputStream.h>
# include <DataStreams/MergeSortingBlockInputStream.h>
# include <DataStreams/MergingSortedBlockInputStream.h>
# include <DataStreams/AggregatingBlockInputStream.h>
# include <DataStreams/MergingAggregatedBlockInputStream.h>
# include <DataStreams/MergingAggregatedMemoryEfficientBlockInputStream.h>
# include <DataStreams/AsynchronousBlockInputStream.h>
# include <DataStreams/UnionBlockInputStream.h>
# include <DataStreams/ParallelAggregatingBlockInputStream.h>
# include <DataStreams/DistinctBlockInputStream.h>
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# include <DataStreams/DistinctSortedBlockInputStream.h>
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# include <DataStreams/NullBlockInputStream.h>
# include <DataStreams/TotalsHavingBlockInputStream.h>
# include <DataStreams/copyData.h>
# include <DataStreams/CreatingSetsBlockInputStream.h>
# include <DataStreams/MaterializingBlockInputStream.h>
# include <DataStreams/ConcatBlockInputStream.h>
# include <Parsers/ASTSelectQuery.h>
# include <Parsers/ASTIdentifier.h>
# include <Parsers/ASTFunction.h>
# include <Parsers/ASTLiteral.h>
# include <Parsers/ASTOrderByElement.h>
# include <Parsers/ASTTablesInSelectQuery.h>
# include <Interpreters/InterpreterSelectQuery.h>
# include <Interpreters/InterpreterSetQuery.h>
# include <Interpreters/ExpressionAnalyzer.h>
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# include <Storages/MergeTree/MergeTreeWhereOptimizer.h>
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# include <Storages/IStorage.h>
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# include <Storages/StorageMergeTree.h>
# include <Storages/StorageReplicatedMergeTree.h>
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# include <TableFunctions/ITableFunction.h>
# include <TableFunctions/TableFunctionFactory.h>
# include <Core/Field.h>
# include <Common/Collator.h>
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# include <Common/typeid_cast.h>
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namespace ProfileEvents
{
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extern const Event SelectQuery ;
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}
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namespace DB
{
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namespace ErrorCodes
{
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extern const int TOO_DEEP_SUBQUERIES ;
extern const int THERE_IS_NO_COLUMN ;
extern const int UNION_ALL_RESULT_STRUCTURES_MISMATCH ;
extern const int SAMPLING_NOT_SUPPORTED ;
extern const int ILLEGAL_FINAL ;
extern const int ILLEGAL_PREWHERE ;
extern const int TOO_MUCH_COLUMNS ;
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}
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InterpreterSelectQuery : : ~ InterpreterSelectQuery ( ) = default ;
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void InterpreterSelectQuery : : init ( const BlockInputStreamPtr & input , const Names & required_column_names )
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{
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ProfileEvents : : increment ( ProfileEvents : : SelectQuery ) ;
initSettings ( ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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if ( settings . limits . max_subquery_depth & & subquery_depth > settings . limits . max_subquery_depth )
throw Exception ( " Too deep subqueries. Maximum: " + settings . limits . max_subquery_depth . toString ( ) ,
ErrorCodes : : TOO_DEEP_SUBQUERIES ) ;
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max_streams = settings . max_threads ;
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if ( is_first_select_inside_union_all )
{
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/// Create a SELECT query chain.
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InterpreterSelectQuery * interpreter = this ;
ASTPtr tail = query . next_union_all ;
while ( tail )
{
ASTPtr head = tail ;
ASTSelectQuery & head_query = static_cast < ASTSelectQuery & > ( * head ) ;
tail = head_query . next_union_all ;
interpreter - > next_select_in_union_all = std : : make_unique < InterpreterSelectQuery > ( head , context , to_stage , subquery_depth ) ;
interpreter = interpreter - > next_select_in_union_all . get ( ) ;
}
}
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renameColumns ( ) ;
if ( ! required_column_names . empty ( ) )
rewriteExpressionList ( required_column_names ) ;
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basicInit ( input ) ;
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}
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bool InterpreterSelectQuery : : hasAggregation ( const ASTSelectQuery & query_ptr )
{
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for ( const ASTSelectQuery * elem = & query_ptr ; elem ; elem = static_cast < const ASTSelectQuery * > ( elem - > next_union_all . get ( ) ) )
if ( elem - > group_expression_list | | elem - > having_expression )
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return true ;
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return false ;
}
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void InterpreterSelectQuery : : basicInit ( const BlockInputStreamPtr & input )
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{
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auto query_table = query . table ( ) ;
if ( query_table & & typeid_cast < ASTSelectQuery * > ( query_table . get ( ) ) )
{
if ( table_column_names . empty ( ) )
{
table_column_names = InterpreterSelectQuery : : getSampleBlock ( query_table , context ) . getColumnsList ( ) ;
}
}
else
{
if ( query_table & & typeid_cast < const ASTFunction * > ( query_table . get ( ) ) )
{
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/// Get the table function
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TableFunctionPtr table_function_ptr = TableFunctionFactory : : instance ( ) . get ( typeid_cast < const ASTFunction * > ( query_table . get ( ) ) - > name , context ) ;
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/// Run it and remember the result
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storage = table_function_ptr - > execute ( query_table , context ) ;
}
else
{
String database_name ;
String table_name ;
getDatabaseAndTableNames ( database_name , table_name ) ;
storage = context . getTable ( database_name , table_name ) ;
}
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table_lock = storage - > lockStructure ( false , __PRETTY_FUNCTION__ ) ;
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if ( table_column_names . empty ( ) )
table_column_names = storage - > getColumnsListNonMaterialized ( ) ;
}
if ( table_column_names . empty ( ) )
throw Exception ( " There are no available columns " , ErrorCodes : : THERE_IS_NO_COLUMN ) ;
query_analyzer = std : : make_unique < ExpressionAnalyzer > ( query_ptr , context , storage , table_column_names , subquery_depth , ! only_analyze ) ;
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if ( query . sample_size ( ) & & ( input | | ! storage | | ! storage - > supportsSampling ( ) ) )
throw Exception ( " Illegal SAMPLE: table doesn't support sampling " , ErrorCodes : : SAMPLING_NOT_SUPPORTED ) ;
if ( query . final ( ) & & ( input | | ! storage | | ! storage - > supportsFinal ( ) ) )
throw Exception ( ( ! input & & storage ) ? " Storage " + storage - > getName ( ) + " doesn't support FINAL " : " Illegal FINAL " , ErrorCodes : : ILLEGAL_FINAL ) ;
if ( query . prewhere_expression & & ( input | | ! storage | | ! storage - > supportsPrewhere ( ) ) )
throw Exception ( ( ! input & & storage ) ? " Storage " + storage - > getName ( ) + " doesn't support PREWHERE " : " Illegal PREWHERE " , ErrorCodes : : ILLEGAL_PREWHERE ) ;
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/// Save the new temporary tables in the query context
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for ( const auto & it : query_analyzer - > getExternalTables ( ) )
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if ( ! context . tryGetExternalTable ( it . first ) )
context . addExternalTable ( it . first , it . second ) ;
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if ( input )
streams . push_back ( input ) ;
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if ( is_first_select_inside_union_all )
{
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/// We check that the results of all SELECT queries are compatible.
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Block first = getSampleBlock ( ) ;
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
{
Block current = p - > getSampleBlock ( ) ;
if ( ! blocksHaveEqualStructure ( first , current ) )
throw Exception ( " Result structures mismatch in the SELECT queries of the UNION ALL chain. Found result structure: \n \n " + current . dumpStructure ( )
+ " \n \n while expecting: \n \n " + first . dumpStructure ( ) + " \n \n instead " ,
ErrorCodes : : UNION_ALL_RESULT_STRUCTURES_MISMATCH ) ;
}
}
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}
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InterpreterSelectQuery : : InterpreterSelectQuery ( const ASTPtr & query_ptr_ , const Context & context_ , QueryProcessingStage : : Enum to_stage_ ,
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size_t subquery_depth_ , BlockInputStreamPtr input )
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: query_ptr ( query_ptr_ )
, query ( typeid_cast < ASTSelectQuery & > ( * query_ptr ) )
, context ( context_ )
, to_stage ( to_stage_ )
, subquery_depth ( subquery_depth_ )
, is_first_select_inside_union_all ( query . isUnionAllHead ( ) )
, log ( & Logger : : get ( " InterpreterSelectQuery " ) )
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{
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init ( input ) ;
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}
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InterpreterSelectQuery : : InterpreterSelectQuery ( OnlyAnalyzeTag , const ASTPtr & query_ptr_ , const Context & context_ )
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: query_ptr ( query_ptr_ )
, query ( typeid_cast < ASTSelectQuery & > ( * query_ptr ) )
, context ( context_ )
, to_stage ( QueryProcessingStage : : Complete )
, subquery_depth ( 0 )
, is_first_select_inside_union_all ( false ) , only_analyze ( true )
, log ( & Logger : : get ( " InterpreterSelectQuery " ) )
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{
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init ( { } ) ;
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}
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InterpreterSelectQuery : : InterpreterSelectQuery ( const ASTPtr & query_ptr_ , const Context & context_ ,
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const Names & required_column_names_ ,
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QueryProcessingStage : : Enum to_stage_ , size_t subquery_depth_ , BlockInputStreamPtr input )
: InterpreterSelectQuery ( query_ptr_ , context_ , required_column_names_ , { } , to_stage_ , subquery_depth_ , input )
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{
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}
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InterpreterSelectQuery : : InterpreterSelectQuery ( const ASTPtr & query_ptr_ , const Context & context_ ,
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const Names & required_column_names_ ,
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const NamesAndTypesList & table_column_names_ , QueryProcessingStage : : Enum to_stage_ , size_t subquery_depth_ , BlockInputStreamPtr input )
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: query_ptr ( query_ptr_ )
, query ( typeid_cast < ASTSelectQuery & > ( * query_ptr ) )
, context ( context_ )
, to_stage ( to_stage_ )
, subquery_depth ( subquery_depth_ )
, table_column_names ( table_column_names_ )
, is_first_select_inside_union_all ( query . isUnionAllHead ( ) )
, log ( & Logger : : get ( " InterpreterSelectQuery " ) )
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{
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init ( input , required_column_names_ ) ;
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}
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bool InterpreterSelectQuery : : hasAsterisk ( ) const
{
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if ( query . hasAsterisk ( ) )
return true ;
if ( is_first_select_inside_union_all )
{
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
{
if ( p - > query . hasAsterisk ( ) )
return true ;
}
}
return false ;
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}
void InterpreterSelectQuery : : renameColumns ( )
{
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if ( is_first_select_inside_union_all )
{
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
p - > query . renameColumns ( query ) ;
}
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}
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void InterpreterSelectQuery : : rewriteExpressionList ( const Names & required_column_names )
{
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if ( query . distinct )
return ;
if ( is_first_select_inside_union_all )
{
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
{
if ( p - > query . distinct )
return ;
}
}
query . rewriteSelectExpressionList ( required_column_names ) ;
if ( is_first_select_inside_union_all )
{
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
p - > query . rewriteSelectExpressionList ( required_column_names ) ;
}
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}
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void InterpreterSelectQuery : : getDatabaseAndTableNames ( String & database_name , String & table_name )
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{
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auto query_database = query . database ( ) ;
auto query_table = query . table ( ) ;
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/** If the table is not specified - use the table `system.one`.
* If the database is not specified - use the current database .
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*/
if ( query_database )
database_name = typeid_cast < ASTIdentifier & > ( * query_database ) . name ;
if ( query_table )
table_name = typeid_cast < ASTIdentifier & > ( * query_table ) . name ;
if ( ! query_table )
{
database_name = " system " ;
table_name = " one " ;
}
else if ( ! query_database )
{
if ( context . tryGetTable ( " " , table_name ) )
database_name = " " ;
else
database_name = context . getCurrentDatabase ( ) ;
}
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}
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DataTypes InterpreterSelectQuery : : getReturnTypes ( )
{
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DataTypes res ;
const NamesAndTypesList & columns = query_analyzer - > getSelectSampleBlock ( ) . getColumnsList ( ) ;
for ( auto & column : columns )
res . push_back ( column . type ) ;
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return res ;
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}
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Block InterpreterSelectQuery : : getSampleBlock ( )
{
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Block block = query_analyzer - > getSelectSampleBlock ( ) ;
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/// create non-zero columns so that SampleBlock can be
/// written (read) with BlockOut(In)putStreams
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for ( size_t i = 0 ; i < block . columns ( ) ; + + i )
{
ColumnWithTypeAndName & col = block . safeGetByPosition ( i ) ;
col . column = col . type - > createColumn ( ) ;
}
return block ;
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}
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Block InterpreterSelectQuery : : getSampleBlock ( const ASTPtr & query_ptr_ , const Context & context_ )
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{
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return InterpreterSelectQuery ( OnlyAnalyzeTag ( ) , query_ptr_ , context_ ) . getSampleBlock ( ) ;
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}
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BlockIO InterpreterSelectQuery : : execute ( )
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{
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( void ) executeWithoutUnion ( ) ;
if ( hasNoData ( ) )
{
BlockIO res ;
res . in = std : : make_shared < NullBlockInputStream > ( ) ;
res . in_sample = getSampleBlock ( ) ;
return res ;
}
executeUnion ( ) ;
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/// Constraints on the result, the quota on the result, and also callback for progress.
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if ( IProfilingBlockInputStream * stream = dynamic_cast < IProfilingBlockInputStream * > ( streams [ 0 ] . get ( ) ) )
{
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/// Constraints apply only to the final result.
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if ( to_stage = = QueryProcessingStage : : Complete )
{
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const Settings & settings = context . getSettingsRef ( ) ;
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IProfilingBlockInputStream : : LocalLimits limits ;
limits . mode = IProfilingBlockInputStream : : LIMITS_CURRENT ;
limits . max_rows_to_read = settings . limits . max_result_rows ;
limits . max_bytes_to_read = settings . limits . max_result_bytes ;
limits . read_overflow_mode = settings . limits . result_overflow_mode ;
stream - > setLimits ( limits ) ;
stream - > setQuota ( context . getQuota ( ) ) ;
}
}
BlockIO res ;
res . in = streams [ 0 ] ;
res . in_sample = getSampleBlock ( ) ;
return res ;
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}
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const BlockInputStreams & InterpreterSelectQuery : : executeWithoutUnion ( )
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{
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if ( is_first_select_inside_union_all )
{
executeSingleQuery ( ) ;
for ( auto p = next_select_in_union_all . get ( ) ; p ! = nullptr ; p = p - > next_select_in_union_all . get ( ) )
{
p - > executeSingleQuery ( ) ;
const auto & others = p - > streams ;
streams . insert ( streams . end ( ) , others . begin ( ) , others . end ( ) ) ;
}
transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < MaterializingBlockInputStream > ( stream ) ;
} ) ;
}
else
executeSingleQuery ( ) ;
return streams ;
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}
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void InterpreterSelectQuery : : executeSingleQuery ( )
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{
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/** Streams of data. When the query is executed in parallel, we have several data streams.
* If there is no GROUP BY , then perform all operations before ORDER BY and LIMIT in parallel , then
* if there is an ORDER BY , then glue the streams using UnionBlockInputStream , and then MergeSortingBlockInputStream ,
* if not , then glue it using UnionBlockInputStream ,
* then apply LIMIT .
* If there is GROUP BY , then we will perform all operations up to GROUP BY , inclusive , in parallel ;
* a parallel GROUP BY will glue streams into one ,
* then perform the remaining operations with one resulting stream .
* If the query is a member of the UNION ALL chain and does not contain GROUP BY , ORDER BY , DISTINCT , or LIMIT ,
* then the data sources are merged not at this level , but at the upper level .
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*/
union_within_single_query = false ;
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/** Take out the data from Storage. from_stage - to what stage the request was completed in Storage. */
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QueryProcessingStage : : Enum from_stage = executeFetchColumns ( ) ;
LOG_TRACE ( log , QueryProcessingStage : : toString ( from_stage ) < < " -> " < < QueryProcessingStage : : toString ( to_stage ) ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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if ( to_stage > QueryProcessingStage : : FetchColumns )
{
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bool has_join = false ;
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bool has_where = false ;
bool need_aggregate = false ;
bool has_having = false ;
bool has_order_by = false ;
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ExpressionActionsPtr before_join ; /// including JOIN
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ExpressionActionsPtr before_where ;
ExpressionActionsPtr before_aggregation ;
ExpressionActionsPtr before_having ;
ExpressionActionsPtr before_order_and_select ;
ExpressionActionsPtr final_projection ;
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/// Columns from the SELECT list, before renaming them to aliases.
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Names selected_columns ;
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/// Do I need to perform the first part of the pipeline - running on remote servers during distributed processing.
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bool first_stage = from_stage < QueryProcessingStage : : WithMergeableState
& & to_stage > = QueryProcessingStage : : WithMergeableState ;
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/// Do I need to execute the second part of the pipeline - running on the initiating server during distributed processing.
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bool second_stage = from_stage < = QueryProcessingStage : : WithMergeableState
& & to_stage > QueryProcessingStage : : WithMergeableState ;
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/** First we compose a chain of actions and remember the necessary steps from it.
* Regardless of from_stage and to_stage , we will compose a complete sequence of actions to perform optimization and
* throw out unnecessary columns based on the entire query . In unnecessary parts of the query , we will not execute subqueries .
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*/
{
ExpressionActionsChain chain ;
need_aggregate = query_analyzer - > hasAggregation ( ) ;
query_analyzer - > appendArrayJoin ( chain , ! first_stage ) ;
if ( query_analyzer - > appendJoin ( chain , ! first_stage ) )
{
has_join = true ;
before_join = chain . getLastActions ( ) ;
chain . addStep ( ) ;
const ASTTableJoin & join = static_cast < const ASTTableJoin & > ( * query . join ( ) - > table_join ) ;
if ( join . kind = = ASTTableJoin : : Kind : : Full | | join . kind = = ASTTableJoin : : Kind : : Right )
stream_with_non_joined_data = before_join - > createStreamWithNonJoinedDataIfFullOrRightJoin ( settings . max_block_size ) ;
}
if ( query_analyzer - > appendWhere ( chain , ! first_stage ) )
{
has_where = true ;
before_where = chain . getLastActions ( ) ;
chain . addStep ( ) ;
}
if ( need_aggregate )
{
query_analyzer - > appendGroupBy ( chain , ! first_stage ) ;
query_analyzer - > appendAggregateFunctionsArguments ( chain , ! first_stage ) ;
before_aggregation = chain . getLastActions ( ) ;
chain . finalize ( ) ;
chain . clear ( ) ;
if ( query_analyzer - > appendHaving ( chain , ! second_stage ) )
{
has_having = true ;
before_having = chain . getLastActions ( ) ;
chain . addStep ( ) ;
}
}
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/// If there is aggregation, we execute expressions in SELECT and ORDER BY on the initiating server, otherwise on the source servers.
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query_analyzer - > appendSelect ( chain , need_aggregate ? ! second_stage : ! first_stage ) ;
selected_columns = chain . getLastStep ( ) . required_output ;
has_order_by = query_analyzer - > appendOrderBy ( chain , need_aggregate ? ! second_stage : ! first_stage ) ;
before_order_and_select = chain . getLastActions ( ) ;
chain . addStep ( ) ;
query_analyzer - > appendProjectResult ( chain , ! second_stage ) ;
final_projection = chain . getLastActions ( ) ;
chain . finalize ( ) ;
chain . clear ( ) ;
}
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/** If there is no data.
* This check is specially postponed slightly lower than it could be ( immediately after executeFetchColumns ) ,
* for the query to be analyzed , and errors ( for example , type mismatches ) could be found in it .
* Otherwise , the empty result could be returned for the incorrect query .
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*/
if ( hasNoData ( ) )
return ;
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/// Before executing WHERE and HAVING, remove the extra columns from the block (mostly the aggregation keys).
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if ( has_where )
before_where - > prependProjectInput ( ) ;
if ( has_having )
before_having - > prependProjectInput ( ) ;
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/// Now we will compose block streams that perform the necessary actions.
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/// Do I need to aggregate in a separate row rows that have not passed max_rows_to_group_by.
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bool aggregate_overflow_row =
need_aggregate & &
query . group_by_with_totals & &
settings . limits . max_rows_to_group_by & &
settings . limits . group_by_overflow_mode = = OverflowMode : : ANY & &
settings . totals_mode ! = TotalsMode : : AFTER_HAVING_EXCLUSIVE ;
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/// Do I need to immediately finalize the aggregate functions after the aggregation?
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bool aggregate_final =
need_aggregate & &
to_stage > QueryProcessingStage : : WithMergeableState & &
! query . group_by_with_totals ;
if ( first_stage )
{
if ( has_join )
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for ( auto & stream : streams ) /// Applies to all sources except stream_with_non_joined_data.
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stream = std : : make_shared < ExpressionBlockInputStream > ( stream , before_join ) ;
if ( has_where )
executeWhere ( before_where ) ;
if ( need_aggregate )
executeAggregation ( before_aggregation , aggregate_overflow_row , aggregate_final ) ;
else
{
executeExpression ( before_order_and_select ) ;
executeDistinct ( true , selected_columns ) ;
}
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/** For distributed query processing,
* if no GROUP , HAVING set ,
* but there is an ORDER or LIMIT ,
* then we will perform the preliminary sorting and LIMIT on the remote server .
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*/
if ( ! second_stage & & ! need_aggregate & & ! has_having )
{
if ( has_order_by )
executeOrder ( ) ;
if ( has_order_by & & query . limit_length )
executeDistinct ( false , selected_columns ) ;
if ( query . limit_length )
executePreLimit ( ) ;
}
}
if ( second_stage )
{
bool need_second_distinct_pass ;
if ( need_aggregate )
{
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/// If you need to combine aggregated results from multiple servers
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if ( ! first_stage )
executeMergeAggregated ( aggregate_overflow_row , aggregate_final ) ;
if ( ! aggregate_final )
executeTotalsAndHaving ( has_having , before_having , aggregate_overflow_row ) ;
else if ( has_having )
executeHaving ( before_having ) ;
executeExpression ( before_order_and_select ) ;
executeDistinct ( true , selected_columns ) ;
need_second_distinct_pass = query . distinct & & hasMoreThanOneStream ( ) ;
}
else
{
need_second_distinct_pass = query . distinct & & hasMoreThanOneStream ( ) ;
if ( query . group_by_with_totals & & ! aggregate_final )
executeTotalsAndHaving ( false , nullptr , aggregate_overflow_row ) ;
}
if ( has_order_by )
{
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/** If there is an ORDER BY for distributed query processing,
* but there is no aggregation , then on the remote servers ORDER BY was made
* - therefore , we merge the sorted streams from remote servers .
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*/
if ( ! first_stage & & ! need_aggregate & & ! ( query . group_by_with_totals & & ! aggregate_final ) )
executeMergeSorted ( ) ;
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else /// Otherwise, just sort.
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executeOrder ( ) ;
}
executeProjection ( final_projection ) ;
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/// At this stage, we can calculate the minimums and maximums, if necessary.
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if ( settings . extremes )
{
transformStreams ( [ & ] ( auto & stream )
{
if ( IProfilingBlockInputStream * p_stream = dynamic_cast < IProfilingBlockInputStream * > ( stream . get ( ) ) )
p_stream - > enableExtremes ( ) ;
} ) ;
}
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/** Optimization - if there are several sources and there is LIMIT, then first apply the preliminary LIMIT,
* limiting the number of entries in each up to ` offset + limit ` .
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*/
if ( query . limit_length & & hasMoreThanOneStream ( ) & & ! query . distinct & & ! query . limit_by_expression_list )
executePreLimit ( ) ;
if ( union_within_single_query | | stream_with_non_joined_data | | need_second_distinct_pass )
union_within_single_query = true ;
/// To execute LIMIT BY we should merge all streams together.
if ( query . limit_by_expression_list & & hasMoreThanOneStream ( ) )
union_within_single_query = true ;
if ( union_within_single_query )
executeUnion ( ) ;
if ( streams . size ( ) = = 1 )
{
/** If there was more than one stream,
* then DISTINCT needs to be performed once again after merging all streams .
*/
if ( need_second_distinct_pass )
executeDistinct ( false , Names ( ) ) ;
executeLimitBy ( ) ;
executeLimit ( ) ;
}
}
}
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/** If there is no data. */
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if ( hasNoData ( ) )
return ;
SubqueriesForSets subqueries_for_sets = query_analyzer - > getSubqueriesForSets ( ) ;
if ( ! subqueries_for_sets . empty ( ) )
executeSubqueriesInSetsAndJoins ( subqueries_for_sets ) ;
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}
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static void getLimitLengthAndOffset ( ASTSelectQuery & query , size_t & length , size_t & offset )
{
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length = 0 ;
offset = 0 ;
if ( query . limit_length )
{
length = safeGet < UInt64 > ( typeid_cast < ASTLiteral & > ( * query . limit_length ) . value ) ;
if ( query . limit_offset )
offset = safeGet < UInt64 > ( typeid_cast < ASTLiteral & > ( * query . limit_offset ) . value ) ;
}
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}
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QueryProcessingStage : : Enum InterpreterSelectQuery : : executeFetchColumns ( )
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{
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if ( ! hasNoData ( ) )
return QueryProcessingStage : : FetchColumns ;
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/// The subquery interpreter, if the subquery
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std : : experimental : : optional < InterpreterSelectQuery > interpreter_subquery ;
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/// List of columns to read to execute the query.
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Names required_columns = query_analyzer - > getRequiredColumns ( ) ;
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/// Actions to calculate ALIAS if required.
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ExpressionActionsPtr alias_actions ;
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/// Are ALIAS columns required for query execution?
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auto alias_columns_required = false ;
if ( storage & & ! storage - > alias_columns . empty ( ) )
{
for ( const auto & column : required_columns )
{
const auto default_it = storage - > column_defaults . find ( column ) ;
if ( default_it ! = std : : end ( storage - > column_defaults ) & & default_it - > second . type = = ColumnDefaultType : : Alias )
{
alias_columns_required = true ;
break ;
}
}
if ( alias_columns_required )
{
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/// We will create an expression to return all the requested columns, with the calculation of the required ALIAS columns.
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auto required_columns_expr_list = std : : make_shared < ASTExpressionList > ( ) ;
for ( const auto & column : required_columns )
{
const auto default_it = storage - > column_defaults . find ( column ) ;
if ( default_it ! = std : : end ( storage - > column_defaults ) & & default_it - > second . type = = ColumnDefaultType : : Alias )
required_columns_expr_list - > children . emplace_back ( setAlias ( default_it - > second . expression - > clone ( ) , column ) ) ;
else
required_columns_expr_list - > children . emplace_back ( std : : make_shared < ASTIdentifier > ( StringRange ( ) , column ) ) ;
}
alias_actions = ExpressionAnalyzer { required_columns_expr_list , context , storage , table_column_names } . getActions ( true ) ;
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/// The set of required columns could be added as a result of adding an action to calculate ALIAS.
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required_columns = alias_actions - > getRequiredColumns ( ) ;
}
}
auto query_table = query . table ( ) ;
if ( query_table & & typeid_cast < ASTSelectQuery * > ( query_table . get ( ) ) )
{
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/** There are no limits on the maximum size of the result for the subquery.
* Since the result of the query is not the result of the entire query .
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*/
Context subquery_context = context ;
Settings subquery_settings = context . getSettings ( ) ;
subquery_settings . limits . max_result_rows = 0 ;
subquery_settings . limits . max_result_bytes = 0 ;
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/// The calculation of extremes does not make sense and is not necessary (if you do it, then the extremes of the subquery can be taken for whole query).
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subquery_settings . extremes = 0 ;
subquery_context . setSettings ( subquery_settings ) ;
interpreter_subquery . emplace (
query_table , subquery_context , required_columns , QueryProcessingStage : : Complete , subquery_depth + 1 ) ;
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/// If there is an aggregation in the outer query, WITH TOTALS is ignored in the subquery.
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if ( query_analyzer - > hasAggregation ( ) )
interpreter_subquery - > ignoreWithTotals ( ) ;
}
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const Settings & settings = context . getSettingsRef ( ) ;
/// Limitation on the number of columns to read.
if ( settings . limits . max_columns_to_read & & required_columns . size ( ) > settings . limits . max_columns_to_read )
throw Exception ( " Limit for number of columns to read exceeded. "
" Requested: " + toString ( required_columns . size ( ) )
+ " , maximum: " + settings . limits . max_columns_to_read . toString ( ) ,
ErrorCodes : : TOO_MUCH_COLUMNS ) ;
size_t limit_length = 0 ;
size_t limit_offset = 0 ;
getLimitLengthAndOffset ( query , limit_length , limit_offset ) ;
size_t max_block_size = settings . max_block_size ;
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/** With distributed query processing, almost no computations are done in the threads,
* but wait and receive data from remote servers .
* If we have 20 remote servers , and max_threads = 8 , then it would not be very good
* connect and ask only 8 servers at a time .
* To simultaneously query more remote servers ,
* instead of max_threads , max_distributed_connections is used .
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*/
bool is_remote = false ;
if ( storage & & storage - > isRemote ( ) )
{
is_remote = true ;
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max_streams = settings . max_distributed_connections ;
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}
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/** Optimization - if not specified DISTINCT, WHERE, GROUP, HAVING, ORDER, LIMIT BY but LIMIT is specified, and limit + offset < max_block_size,
* then as the block size we will use limit + offset ( not to read more from the table than requested ) ,
* and also set the number of threads to 1.
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*/
if ( ! query . distinct
& & ! query . prewhere_expression
& & ! query . where_expression
& & ! query . group_expression_list
& & ! query . having_expression
& & ! query . order_expression_list
& & ! query . limit_by_expression_list
& & query . limit_length
& & ! query_analyzer - > hasAggregation ( )
& & limit_length + limit_offset < settings . max_block_size )
{
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max_block_size = limit_length + limit_offset ;
max_streams = 1 ;
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}
QueryProcessingStage : : Enum from_stage = QueryProcessingStage : : FetchColumns ;
query_analyzer - > makeSetsForIndex ( ) ;
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/// Initialize the initial data streams to which the query transforms are superimposed. Table or subquery?
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if ( ! interpreter_subquery )
{
if ( max_streams = = 0 )
throw Exception ( " Logical error: zero number of streams requested " , ErrorCodes : : LOGICAL_ERROR ) ;
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/// If necessary, we request more sources than the number of threads - to distribute the work evenly over the threads.
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if ( max_streams > 1 & & ! is_remote )
max_streams * = settings . max_streams_to_max_threads_ratio ;
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SelectQueryInfo query_info ;
query_info . query = query_ptr ;
query_info . sets = query_analyzer - > getPreparedSets ( ) ;
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/// PREWHERE optimization
{
auto optimize_prewhere = [ & ] ( auto & merge_tree )
{
/// Try transferring some condition from WHERE to PREWHERE if enabled and viable
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if ( settings . optimize_move_to_prewhere & & query . where_expression & & ! query . prewhere_expression & & ! query . final ( ) )
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MergeTreeWhereOptimizer { query_info , context , merge_tree . getData ( ) , required_columns , log } ;
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} ;
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if ( const StorageMergeTree * merge_tree = dynamic_cast < const StorageMergeTree * > ( storage . get ( ) ) )
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optimize_prewhere ( * merge_tree ) ;
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else if ( const StorageReplicatedMergeTree * merge_tree = dynamic_cast < const StorageReplicatedMergeTree * > ( storage . get ( ) ) )
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optimize_prewhere ( * merge_tree ) ;
}
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streams = storage - > read ( required_columns , query_info , context , from_stage , max_block_size , max_streams ) ;
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if ( alias_actions )
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{
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/// Wrap each stream returned from the table to calculate and add ALIAS columns
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < ExpressionBlockInputStream > ( stream , alias_actions ) ;
} ) ;
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}
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transformStreams ( [ & ] ( auto & stream )
{
stream - > addTableLock ( table_lock ) ;
} ) ;
}
else
{
const auto & subquery_streams = interpreter_subquery - > executeWithoutUnion ( ) ;
streams . insert ( streams . end ( ) , subquery_streams . begin ( ) , subquery_streams . end ( ) ) ;
}
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/** Set the limits and quota for reading data, the speed and time of the query.
* Such restrictions are checked on the initiating server of the request , and not on remote servers .
* Because the initiating server has a summary of the execution of the request on all servers .
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*/
if ( storage & & to_stage = = QueryProcessingStage : : Complete )
{
IProfilingBlockInputStream : : LocalLimits limits ;
limits . mode = IProfilingBlockInputStream : : LIMITS_TOTAL ;
limits . max_rows_to_read = settings . limits . max_rows_to_read ;
limits . max_bytes_to_read = settings . limits . max_bytes_to_read ;
limits . read_overflow_mode = settings . limits . read_overflow_mode ;
limits . max_execution_time = settings . limits . max_execution_time ;
limits . timeout_overflow_mode = settings . limits . timeout_overflow_mode ;
limits . min_execution_speed = settings . limits . min_execution_speed ;
limits . timeout_before_checking_execution_speed = settings . limits . timeout_before_checking_execution_speed ;
QuotaForIntervals & quota = context . getQuota ( ) ;
transformStreams ( [ & ] ( auto & stream )
{
if ( IProfilingBlockInputStream * p_stream = dynamic_cast < IProfilingBlockInputStream * > ( stream . get ( ) ) )
{
p_stream - > setLimits ( limits ) ;
p_stream - > setQuota ( quota ) ;
}
} ) ;
}
return from_stage ;
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}
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void InterpreterSelectQuery : : executeWhere ( ExpressionActionsPtr expression )
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{
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < FilterBlockInputStream > ( stream , expression , query . where_expression - > getColumnName ( ) ) ;
} ) ;
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}
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void InterpreterSelectQuery : : executeAggregation ( ExpressionActionsPtr expression , bool overflow_row , bool final )
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{
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < ExpressionBlockInputStream > ( stream , expression ) ;
} ) ;
Names key_names ;
AggregateDescriptions aggregates ;
query_analyzer - > getAggregateInfo ( key_names , aggregates ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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/** Two-level aggregation is useful in two cases:
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* 1. Parallel aggregation is done , and the results should be merged in parallel .
* 2. An aggregation is done with store of temporary data on the disk , and they need to be merged in a memory efficient way .
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*/
bool allow_to_use_two_level_group_by = streams . size ( ) > 1 | | settings . limits . max_bytes_before_external_group_by ! = 0 ;
Aggregator : : Params params ( key_names , aggregates ,
overflow_row , settings . limits . max_rows_to_group_by , settings . limits . group_by_overflow_mode ,
settings . compile ? & context . getCompiler ( ) : nullptr , settings . min_count_to_compile ,
allow_to_use_two_level_group_by ? settings . group_by_two_level_threshold : SettingUInt64 ( 0 ) ,
allow_to_use_two_level_group_by ? settings . group_by_two_level_threshold_bytes : SettingUInt64 ( 0 ) ,
settings . limits . max_bytes_before_external_group_by , context . getTemporaryPath ( ) ) ;
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/// If there are several sources, then we perform parallel aggregation
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if ( streams . size ( ) > 1 )
{
streams [ 0 ] = std : : make_shared < ParallelAggregatingBlockInputStream > (
streams , stream_with_non_joined_data , params , final ,
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max_streams ,
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settings . aggregation_memory_efficient_merge_threads
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? static_cast < size_t > ( settings . aggregation_memory_efficient_merge_threads )
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: static_cast < size_t > ( settings . max_threads ) ) ;
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stream_with_non_joined_data = nullptr ;
streams . resize ( 1 ) ;
}
else
{
BlockInputStreams inputs ;
if ( ! streams . empty ( ) )
inputs . push_back ( streams [ 0 ] ) ;
else
streams . resize ( 1 ) ;
if ( stream_with_non_joined_data )
inputs . push_back ( stream_with_non_joined_data ) ;
streams [ 0 ] = std : : make_shared < AggregatingBlockInputStream > ( std : : make_shared < ConcatBlockInputStream > ( inputs ) , params , final ) ;
stream_with_non_joined_data = nullptr ;
}
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}
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void InterpreterSelectQuery : : executeMergeAggregated ( bool overflow_row , bool final )
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{
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Names key_names ;
AggregateDescriptions aggregates ;
query_analyzer - > getAggregateInfo ( key_names , aggregates ) ;
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/** There are two modes of distributed aggregation.
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*
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* 1. In different threads read from the remote servers blocks .
* Save all the blocks in the RAM . Merge blocks .
* If the aggregation is two - level - parallelize to the number of buckets .
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*
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* 2. In one thread , read blocks from different servers in order .
* RAM stores only one block from each server .
* If the aggregation is a two - level aggregation , we consistently merge the blocks of each next level .
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*
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* The second option consumes less memory ( up to 256 times less )
* in the case of two - level aggregation , which is used for large results after GROUP BY ,
* but it can work more slowly .
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*/
Aggregator : : Params params ( key_names , aggregates , overflow_row ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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if ( ! settings . distributed_aggregation_memory_efficient )
{
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/// We union several sources into one, parallelizing the work.
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executeUnion ( ) ;
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/// Now merge the aggregated blocks
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streams [ 0 ] = std : : make_shared < MergingAggregatedBlockInputStream > ( streams [ 0 ] , params , final , settings . max_threads ) ;
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}
else
{
streams [ 0 ] = std : : make_shared < MergingAggregatedMemoryEfficientBlockInputStream > ( streams , params , final ,
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max_streams ,
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settings . aggregation_memory_efficient_merge_threads
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? static_cast < size_t > ( settings . aggregation_memory_efficient_merge_threads )
: static_cast < size_t > ( settings . max_threads ) ) ;
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streams . resize ( 1 ) ;
}
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}
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void InterpreterSelectQuery : : executeHaving ( ExpressionActionsPtr expression )
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{
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < FilterBlockInputStream > ( stream , expression , query . having_expression - > getColumnName ( ) ) ;
} ) ;
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}
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void InterpreterSelectQuery : : executeTotalsAndHaving ( bool has_having , ExpressionActionsPtr expression , bool overflow_row )
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{
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executeUnion ( ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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streams [ 0 ] = std : : make_shared < TotalsHavingBlockInputStream > (
streams [ 0 ] , overflow_row , expression ,
has_having ? query . having_expression - > getColumnName ( ) : " " , settings . totals_mode , settings . totals_auto_threshold ) ;
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}
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void InterpreterSelectQuery : : executeExpression ( ExpressionActionsPtr expression )
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{
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < ExpressionBlockInputStream > ( stream , expression ) ;
} ) ;
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}
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static SortDescription getSortDescription ( ASTSelectQuery & query )
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{
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SortDescription order_descr ;
order_descr . reserve ( query . order_expression_list - > children . size ( ) ) ;
for ( const auto & elem : query . order_expression_list - > children )
{
String name = elem - > children . front ( ) - > getColumnName ( ) ;
const ASTOrderByElement & order_by_elem = typeid_cast < const ASTOrderByElement & > ( * elem ) ;
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std : : shared_ptr < Collator > collator ;
if ( order_by_elem . collation )
collator = std : : make_shared < Collator > ( typeid_cast < const ASTLiteral & > ( * order_by_elem . collation ) . value . get < String > ( ) ) ;
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order_descr . emplace_back ( name , order_by_elem . direction , order_by_elem . nulls_direction , collator ) ;
}
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return order_descr ;
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}
static size_t getLimitForSorting ( ASTSelectQuery & query )
{
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/// Partial sort can be done if there is LIMIT but no DISTINCT or LIMIT BY.
size_t limit = 0 ;
if ( ! query . distinct & & ! query . limit_by_expression_list )
{
size_t limit_length = 0 ;
size_t limit_offset = 0 ;
getLimitLengthAndOffset ( query , limit_length , limit_offset ) ;
limit = limit_length + limit_offset ;
}
return limit ;
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}
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void InterpreterSelectQuery : : executeOrder ( )
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{
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SortDescription order_descr = getSortDescription ( query ) ;
size_t limit = getLimitForSorting ( query ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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transformStreams ( [ & ] ( auto & stream )
{
auto sorting_stream = std : : make_shared < PartialSortingBlockInputStream > ( stream , order_descr , limit ) ;
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/// Limits on sorting
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IProfilingBlockInputStream : : LocalLimits limits ;
limits . mode = IProfilingBlockInputStream : : LIMITS_TOTAL ;
limits . max_rows_to_read = settings . limits . max_rows_to_sort ;
limits . max_bytes_to_read = settings . limits . max_bytes_to_sort ;
limits . read_overflow_mode = settings . limits . sort_overflow_mode ;
sorting_stream - > setLimits ( limits ) ;
stream = sorting_stream ;
} ) ;
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/// If there are several streams, we merge them into one
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executeUnion ( ) ;
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/// Merge the sorted blocks.
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streams [ 0 ] = std : : make_shared < MergeSortingBlockInputStream > (
streams [ 0 ] , order_descr , settings . max_block_size , limit ,
settings . limits . max_bytes_before_external_sort , context . getTemporaryPath ( ) ) ;
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}
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void InterpreterSelectQuery : : executeMergeSorted ( )
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{
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SortDescription order_descr = getSortDescription ( query ) ;
size_t limit = getLimitForSorting ( query ) ;
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const Settings & settings = context . getSettingsRef ( ) ;
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/// If there are several streams, then we merge them into one
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if ( hasMoreThanOneStream ( ) )
{
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/** MergingSortedBlockInputStream reads the sources sequentially.
* To make the data on the remote servers prepared in parallel , we wrap it in AsynchronousBlockInputStream .
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*/
transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < AsynchronousBlockInputStream > ( stream ) ;
} ) ;
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/// Merge the sorted sources into one sorted source.
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streams [ 0 ] = std : : make_shared < MergingSortedBlockInputStream > ( streams , order_descr , settings . max_block_size , limit ) ;
streams . resize ( 1 ) ;
}
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}
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void InterpreterSelectQuery : : executeProjection ( ExpressionActionsPtr expression )
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{
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transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < ExpressionBlockInputStream > ( stream , expression ) ;
} ) ;
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}
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void InterpreterSelectQuery : : executeDistinct ( bool before_order , Names columns )
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{
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if ( query . distinct )
{
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const Settings & settings = context . getSettingsRef ( ) ;
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size_t limit_length = 0 ;
size_t limit_offset = 0 ;
getLimitLengthAndOffset ( query , limit_length , limit_offset ) ;
size_t limit_for_distinct = 0 ;
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/// If after this stage of DISTINCT ORDER BY is not executed, then you can get no more than limit_length + limit_offset of different rows.
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if ( ! query . order_expression_list | | ! before_order )
limit_for_distinct = limit_length + limit_offset ;
transformStreams ( [ & ] ( auto & stream )
{
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if ( stream - > isGroupedOutput ( ) )
stream = std : : make_shared < DistinctSortedBlockInputStream > ( stream , settings . limits , limit_for_distinct , columns ) ;
else
stream = std : : make_shared < DistinctBlockInputStream > ( stream , settings . limits , limit_for_distinct , columns ) ;
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} ) ;
if ( hasMoreThanOneStream ( ) )
union_within_single_query = true ;
}
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}
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void InterpreterSelectQuery : : executeUnion ( )
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{
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/// If there are still several streams, then we combine them into one
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if ( hasMoreThanOneStream ( ) )
{
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streams [ 0 ] = std : : make_shared < UnionBlockInputStream < > > ( streams , stream_with_non_joined_data , max_streams ) ;
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stream_with_non_joined_data = nullptr ;
streams . resize ( 1 ) ;
union_within_single_query = false ;
}
else if ( stream_with_non_joined_data )
{
streams . push_back ( stream_with_non_joined_data ) ;
stream_with_non_joined_data = nullptr ;
union_within_single_query = false ;
}
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}
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/// Preliminary LIMIT - is used in every source, if there are several sources, before they are combined.
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void InterpreterSelectQuery : : executePreLimit ( )
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{
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size_t limit_length = 0 ;
size_t limit_offset = 0 ;
getLimitLengthAndOffset ( query , limit_length , limit_offset ) ;
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/// If there is LIMIT
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if ( query . limit_length )
{
transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < LimitBlockInputStream > ( stream , limit_length + limit_offset , false ) ;
} ) ;
if ( hasMoreThanOneStream ( ) )
union_within_single_query = true ;
}
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}
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void InterpreterSelectQuery : : executeLimitBy ( )
{
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if ( ! query . limit_by_value | | ! query . limit_by_expression_list )
return ;
Names columns ;
size_t value = safeGet < UInt64 > ( typeid_cast < ASTLiteral & > ( * query . limit_by_value ) . value ) ;
for ( const auto & elem : query . limit_by_expression_list - > children )
{
columns . emplace_back ( elem - > getAliasOrColumnName ( ) ) ;
}
transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < LimitByBlockInputStream > (
stream , value , columns
) ;
} ) ;
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}
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void InterpreterSelectQuery : : executeLimit ( )
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{
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size_t limit_length = 0 ;
size_t limit_offset = 0 ;
getLimitLengthAndOffset ( query , limit_length , limit_offset ) ;
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/// If there is LIMIT
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if ( query . limit_length )
{
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/** Rare case:
* if there is no WITH TOTALS and there is a subquery in FROM , and there is WITH TOTALS on one of the levels ,
* then when using LIMIT , you should read the data to the end , rather than cancel the query earlier ,
* because if you cancel the query , we will not get ` totals ` data from the remote server .
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*
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* Another case :
* if there is WITH TOTALS and there is no ORDER BY , then read the data to the end ,
* otherwise TOTALS is counted according to incomplete data .
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*/
bool always_read_till_end = false ;
if ( query . group_by_with_totals & & ! query . order_expression_list )
{
always_read_till_end = true ;
}
auto query_table = query . table ( ) ;
if ( ! query . group_by_with_totals & & query_table & & typeid_cast < const ASTSelectQuery * > ( query_table . get ( ) ) )
{
const ASTSelectQuery * subquery = static_cast < const ASTSelectQuery * > ( query_table . get ( ) ) ;
while ( subquery - > table ( ) )
{
if ( subquery - > group_by_with_totals )
{
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/** NOTE You can also check that the table in the subquery is distributed, and that it only looks at one shard.
* In other cases , totals will be computed on the initiating server of the query , and it is not necessary to read the data to the end .
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*/
always_read_till_end = true ;
break ;
}
auto subquery_table = subquery - > table ( ) ;
if ( typeid_cast < const ASTSelectQuery * > ( subquery_table . get ( ) ) )
subquery = static_cast < const ASTSelectQuery * > ( subquery_table . get ( ) ) ;
else
break ;
}
}
transformStreams ( [ & ] ( auto & stream )
{
stream = std : : make_shared < LimitBlockInputStream > ( stream , limit_length , limit_offset , always_read_till_end ) ;
} ) ;
}
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}
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void InterpreterSelectQuery : : executeSubqueriesInSetsAndJoins ( SubqueriesForSets & subqueries_for_sets )
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{
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const Settings & settings = context . getSettingsRef ( ) ;
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executeUnion ( ) ;
streams [ 0 ] = std : : make_shared < CreatingSetsBlockInputStream > ( streams [ 0 ] , subqueries_for_sets , settings . limits ) ;
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}
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template < typename Transform >
void InterpreterSelectQuery : : transformStreams ( Transform & & transform )
{
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for ( auto & stream : streams )
transform ( stream ) ;
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if ( stream_with_non_joined_data )
transform ( stream_with_non_joined_data ) ;
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}
bool InterpreterSelectQuery : : hasNoData ( ) const
{
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return streams . empty ( ) & & ! stream_with_non_joined_data ;
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}
bool InterpreterSelectQuery : : hasMoreThanOneStream ( ) const
{
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return streams . size ( ) + ( stream_with_non_joined_data ? 1 : 0 ) > 1 ;
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}
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void InterpreterSelectQuery : : ignoreWithTotals ( )
{
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query . group_by_with_totals = false ;
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}
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void InterpreterSelectQuery : : initSettings ( )
{
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if ( query . settings )
InterpreterSetQuery ( query . settings , context ) . executeForCurrentContext ( ) ;
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}
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}