ClickHouse/src/Storages/WindowView/StorageWindowView.cpp

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#include <numeric>
#include <regex>
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#include <DataTypes/DataTypeDateTime.h>
#include <DataTypes/DataTypesNumber.h>
#include <DataTypes/DataTypeTuple.h>
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#include <Functions/FunctionFactory.h>
#include <Functions/FunctionsTimeWindow.h>
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#include <Interpreters/addMissingDefaults.h>
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#include <Interpreters/AddDefaultDatabaseVisitor.h>
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#include <Interpreters/Context.h>
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#include <Interpreters/InDepthNodeVisitor.h>
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#include <Interpreters/InterpreterAlterQuery.h>
#include <Interpreters/InterpreterCreateQuery.h>
#include <Interpreters/InterpreterInsertQuery.h>
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#include <Interpreters/InterpreterDropQuery.h>
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#include <Interpreters/InterpreterSelectQuery.h>
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#include <Interpreters/ProcessList.h>
#include <Interpreters/QueryAliasesVisitor.h>
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#include <Interpreters/QueryNormalizer.h>
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#include <Interpreters/getTableExpressions.h>
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#include <Interpreters/getHeaderForProcessingStage.h>
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#include <Parsers/ASTAlterQuery.h>
#include <Parsers/ASTAsterisk.h>
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#include <Parsers/ASTCreateQuery.h>
#include <Parsers/ASTDropQuery.h>
#include <Parsers/ASTIdentifier.h>
#include <Parsers/ASTLiteral.h>
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#include <Parsers/ASTOrderByElement.h>
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#include <Parsers/ASTSelectQuery.h>
#include <Parsers/ASTTablesInSelectQuery.h>
#include <Parsers/ASTColumnDeclaration.h>
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#include <Parsers/ASTWatchQuery.h>
#include <Parsers/parseQuery.h>
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#include <Parsers/formatAST.h>
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#include <Processors/Executors/CompletedPipelineExecutor.h>
#include <Processors/Sources/BlocksSource.h>
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#include <Processors/Sources/SourceFromSingleChunk.h>
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#include <Processors/Executors/PullingAsyncPipelineExecutor.h>
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#include <Processors/Transforms/ExpressionTransform.h>
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#include <Processors/Transforms/FilterTransform.h>
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#include <Processors/Transforms/WatermarkTransform.h>
#include <Processors/Transforms/SquashingChunksTransform.h>
#include <Processors/Transforms/MaterializingTransform.h>
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#include <Processors/QueryPlan/QueryPlan.h>
#include <Processors/QueryPlan/BuildQueryPipelineSettings.h>
#include <Processors/QueryPlan/ExpressionStep.h>
#include <Processors/QueryPlan/Optimizations/QueryPlanOptimizationSettings.h>
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#include <Processors/Executors/PipelineExecutor.h>
#include <Processors/Sinks/EmptySink.h>
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#include <Storages/AlterCommands.h>
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#include <Storages/StorageFactory.h>
#include <Common/typeid_cast.h>
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#include <Common/ProfileEvents.h>
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#include <base/sleep.h>
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#include <Common/logger_useful.h>
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#include <Storages/LiveView/StorageBlocks.h>
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#include <Storages/WindowView/StorageWindowView.h>
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#include <Storages/WindowView/WindowViewSource.h>
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#include <QueryPipeline/printPipeline.h>
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#include <QueryPipeline/QueryPipelineBuilder.h>
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namespace DB
{
namespace ErrorCodes
{
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extern const int ARGUMENT_OUT_OF_BOUND;
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extern const int BAD_ARGUMENTS;
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extern const int SYNTAX_ERROR;
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extern const int ILLEGAL_COLUMN;
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extern const int ILLEGAL_TYPE_OF_ARGUMENT;
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extern const int INCORRECT_QUERY;
extern const int LOGICAL_ERROR;
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extern const int QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW;
extern const int SUPPORT_IS_DISABLED;
extern const int TABLE_WAS_NOT_DROPPED;
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extern const int NOT_IMPLEMENTED;
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extern const int UNSUPPORTED_METHOD;
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}
namespace
{
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/// Fetch all window info and replace tumble or hop node names with windowID
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struct WindowFunctionMatcher
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{
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using Visitor = InDepthNodeVisitor<WindowFunctionMatcher, true>;
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using TypeToVisit = ASTFunction;
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struct Data
{
ASTPtr window_function;
String serialized_window_function;
bool is_tumble = false;
bool is_hop = false;
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bool check_duplicate_window = false;
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};
static bool needChildVisit(ASTPtr &, const ASTPtr &) { return true; }
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static void visit(ASTPtr & ast, Data & data)
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{
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if (auto * t = ast->as<ASTFunction>())
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{
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if (t->name == "tumble" || t->name == "hop")
{
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data.is_tumble = t->name == "tumble";
data.is_hop = t->name == "hop";
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auto temp_node = t->clone();
temp_node->setAlias("");
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if (!data.window_function)
{
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if (data.check_duplicate_window)
data.serialized_window_function = serializeAST(*temp_node);
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t->name = "windowID";
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data.window_function = t->clone();
data.window_function->setAlias("");
}
else
{
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if (data.check_duplicate_window && serializeAST(*temp_node) != data.serialized_window_function)
throw Exception(ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW, "WINDOW VIEW only support ONE TIME WINDOW FUNCTION");
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t->name = "windowID";
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}
}
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}
}
};
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/// Replace windowID node name with either tumble or hop
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struct ReplaceWindowIdMatcher
{
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public:
using Visitor = InDepthNodeVisitor<ReplaceWindowIdMatcher, true>;
struct Data
{
String window_name;
};
static bool needChildVisit(ASTPtr &, const ASTPtr &) { return true; }
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static void visit(ASTPtr & ast, Data & data)
{
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if (auto * t = ast->as<ASTFunction>())
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{
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if (t->name == "windowID")
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t->name = data.window_name;
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}
}
};
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/// GROUP BY tumble(now(), INTERVAL '5' SECOND)
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/// will become
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/// GROUP BY tumble(____timestamp, INTERVAL '5' SECOND)
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struct ReplaceFunctionNowData
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{
using TypeToVisit = ASTFunction;
bool is_time_column_func_now = false;
String window_id_name;
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String now_timezone;
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void visit(ASTFunction & node, ASTPtr & node_ptr)
{
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if (node.name == "windowID" || node.name == "tumble" || node.name == "hop")
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{
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if (const auto * t = node.arguments->children[0]->as<ASTFunction>();
t && t->name == "now")
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{
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if (!t->children.empty())
{
const auto & children = t->children[0]->as<ASTExpressionList>()->children;
if (!children.empty())
{
const auto * timezone_ast = children[0]->as<ASTLiteral>();
if (timezone_ast)
now_timezone = timezone_ast->value.safeGet<String>();
}
}
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is_time_column_func_now = true;
node_ptr->children[0]->children[0] = std::make_shared<ASTIdentifier>("____timestamp");
window_id_name = node.getColumnName();
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}
}
}
};
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using ReplaceFunctionNowVisitor = InDepthNodeVisitor<OneTypeMatcher<ReplaceFunctionNowData>, true>;
class ToIdentifierMatcher
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{
public:
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using Visitor = InDepthNodeVisitor<ToIdentifierMatcher, true>;
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struct Data
{
String window_id_name;
String window_id_alias;
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};
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static bool needChildVisit(ASTPtr &, const ASTPtr &) { return true; }
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static void visit(ASTPtr & ast, Data & data)
{
if (const auto * t = ast->as<ASTFunction>())
visit(*t, ast, data);
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if (const auto * t = ast->as<ASTIdentifier>())
visit(*t, ast, data);
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}
private:
static void visit(const ASTFunction & node, ASTPtr & node_ptr, Data &)
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{
if (node.name == "tuple")
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{
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/// tuple(windowID(timestamp, toIntervalSecond('5')))
return;
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}
else
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{
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/// windowID(timestamp, toIntervalSecond('5')) -> identifier.
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/// and other...
node_ptr = std::make_shared<ASTIdentifier>(node.getColumnName());
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}
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}
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static void visit(const ASTIdentifier & node, ASTPtr & node_ptr, Data & data)
{
if (node.getColumnName() == data.window_id_alias)
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{
if (auto identifier = std::dynamic_pointer_cast<ASTIdentifier>(node_ptr))
identifier->setShortName(data.window_id_name);
}
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}
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};
struct DropTableIdentifierMatcher
{
using Visitor = InDepthNodeVisitor<DropTableIdentifierMatcher, true>;
struct Data{};
static bool needChildVisit(ASTPtr &, const ASTPtr &) { return true; }
static void visit(ASTPtr & ast, Data &)
{
if (auto * t = ast->as<ASTIdentifier>())
{
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t->setShortName(t->shortName());
}
}
};
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void extractWindowArgument(const ASTPtr & ast, IntervalKind::Kind & kind, Int64 & num_units, String err_msg)
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{
const auto * arg = ast->as<ASTFunction>();
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if (!arg || !startsWith(arg->name, "toInterval")
|| !IntervalKind::tryParseString(Poco::toLower(arg->name.substr(10)), kind))
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throw Exception::createDeprecated(err_msg, ErrorCodes::ILLEGAL_TYPE_OF_ARGUMENT);
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const auto * interval_unit = arg->children.front()->children.front()->as<ASTLiteral>();
if (!interval_unit
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|| (interval_unit->value.getType() != Field::Types::String
&& interval_unit->value.getType() != Field::Types::UInt64))
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Interval argument must be integer");
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if (interval_unit->value.getType() == Field::Types::String)
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num_units = parse<Int64>(interval_unit->value.safeGet<String>());
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else
num_units = interval_unit->value.safeGet<UInt64>();
if (num_units <= 0)
throw Exception(ErrorCodes::ARGUMENT_OUT_OF_BOUND, "Value for Interval argument must be positive.");
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}
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UInt32 addTime(UInt32 time_sec, IntervalKind::Kind kind, Int64 num_units, const DateLUTImpl & time_zone)
{
switch (kind)
{
case IntervalKind::Nanosecond:
case IntervalKind::Microsecond:
case IntervalKind::Millisecond:
throw Exception(ErrorCodes::SYNTAX_ERROR, "Fractional seconds are not supported by windows yet");
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#define CASE_WINDOW_KIND(KIND) \
case IntervalKind::KIND: { \
return AddTime<IntervalKind::KIND>::execute(time_sec, num_units, time_zone); \
}
CASE_WINDOW_KIND(Second)
CASE_WINDOW_KIND(Minute)
CASE_WINDOW_KIND(Hour)
CASE_WINDOW_KIND(Day)
CASE_WINDOW_KIND(Week)
CASE_WINDOW_KIND(Month)
CASE_WINDOW_KIND(Quarter)
CASE_WINDOW_KIND(Year)
#undef CASE_WINDOW_KIND
}
UNREACHABLE();
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}
class AddingAggregatedChunkInfoTransform : public ISimpleTransform
{
public:
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explicit AddingAggregatedChunkInfoTransform(Block header) : ISimpleTransform(header, header, false) { }
void transform(Chunk & chunk) override { chunk.setChunkInfo(std::make_shared<AggregatedChunkInfo>()); }
String getName() const override { return "AddingAggregatedChunkInfoTransform"; }
};
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String generateInnerTableName(const StorageID & storage_id)
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{
if (storage_id.hasUUID())
return ".inner." + toString(storage_id.uuid);
return ".inner." + storage_id.getTableName();
}
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String generateTargetTableName(const StorageID & storage_id)
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{
if (storage_id.hasUUID())
return ".inner.target." + toString(storage_id.uuid);
return ".inner.target." + storage_id.table_name;
}
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ASTPtr generateInnerFetchQuery(StorageID inner_table_id)
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{
auto fetch_query = std::make_shared<ASTSelectQuery>();
auto select = std::make_shared<ASTExpressionList>();
select->children.push_back(std::make_shared<ASTAsterisk>());
fetch_query->setExpression(ASTSelectQuery::Expression::SELECT, select);
fetch_query->setExpression(ASTSelectQuery::Expression::TABLES, std::make_shared<ASTTablesInSelectQuery>());
auto tables_elem = std::make_shared<ASTTablesInSelectQueryElement>();
auto table_expr = std::make_shared<ASTTableExpression>();
fetch_query->tables()->children.push_back(tables_elem);
tables_elem->table_expression = table_expr;
tables_elem->children.push_back(table_expr);
table_expr->database_and_table_name = std::make_shared<ASTTableIdentifier>(inner_table_id);
table_expr->children.push_back(table_expr->database_and_table_name);
return fetch_query;
}
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}
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static void extractDependentTable(ContextPtr context, ASTPtr & query, String & select_database_name, String & select_table_name)
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{
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ASTSelectQuery & select_query = typeid_cast<ASTSelectQuery &>(*query);
auto db_and_table = getDatabaseAndTable(select_query, 0);
ASTPtr subquery = extractTableExpression(select_query, 0);
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if (!db_and_table && !subquery)
return;
if (db_and_table)
{
select_table_name = db_and_table->table;
if (db_and_table->database.empty())
{
db_and_table->database = select_database_name;
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AddDefaultDatabaseVisitor visitor(context, select_database_name);
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visitor.visit(select_query);
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}
else
select_database_name = db_and_table->database;
}
else if (auto * ast_select = subquery->as<ASTSelectWithUnionQuery>())
{
if (ast_select->list_of_selects->children.size() != 1)
throw Exception(ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW, "UNION is not supported for WINDOW VIEW");
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auto & inner_select_query = ast_select->list_of_selects->children.at(0);
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extractDependentTable(context, inner_select_query, select_database_name, select_table_name);
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}
else
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throw Exception(DB::ErrorCodes::LOGICAL_ERROR,
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"Logical error while creating StorageWindowView."
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" Could not retrieve table name from select query.");
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}
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UInt32 StorageWindowView::getCleanupBound()
{
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if (max_fired_watermark == 0)
return 0;
if (is_proctime)
return max_fired_watermark;
else
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{
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auto w_bound = max_fired_watermark;
if (allowed_lateness)
w_bound = addTime(w_bound, lateness_kind, -lateness_num_units, *time_zone);
return getWindowLowerBound(w_bound);
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}
}
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ASTPtr StorageWindowView::getCleanupQuery()
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{
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ASTPtr function_less;
function_less= makeASTFunction(
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"less",
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std::make_shared<ASTIdentifier>(window_id_name),
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std::make_shared<ASTLiteral>(getCleanupBound()));
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auto alter_query = std::make_shared<ASTAlterQuery>();
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alter_query->setDatabase(inner_table_id.database_name);
alter_query->setTable(inner_table_id.table_name);
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alter_query->uuid = inner_table_id.uuid;
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alter_query->set(alter_query->command_list, std::make_shared<ASTExpressionList>());
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alter_query->alter_object = ASTAlterQuery::AlterObjectType::TABLE;
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auto alter_command = std::make_shared<ASTAlterCommand>();
alter_command->type = ASTAlterCommand::DELETE;
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alter_command->predicate = function_less;
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alter_command->children.push_back(alter_command->predicate);
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alter_query->command_list->children.push_back(alter_command);
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return alter_query;
}
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void StorageWindowView::truncate(const ASTPtr &, const StorageMetadataPtr &, ContextPtr local_context, TableExclusiveLockHolder &)
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{
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InterpreterDropQuery::executeDropQuery(ASTDropQuery::Kind::Truncate, getContext(), local_context, inner_table_id, true);
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}
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bool StorageWindowView::optimize(
const ASTPtr & query,
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const StorageMetadataPtr & /*metadata_snapshot*/,
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const ASTPtr & partition,
bool final,
bool deduplicate,
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const Names & deduplicate_by_columns,
[RFC] Replacing merge tree new engine (#41005) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add keyword 'CLEANUP' when OPTIMIZE * Cleanup uniquely when it's a replacingMergeTree * Propagate CLEANUP information and change from 'with_cleanup' to 'cleanup' * Cleanup data flagged as 'is_deleted' * Fix merge when optimize and add a test * Fix OPTIMIZE and INSERT + add tests * New fix for cleanup at the merge * Cleanup debug logs * Add the SETTINGS option 'clean_deleted_rows' that can be 'never' or 'always' * Fix regression bug; Now REplicatedMergeTree can be called as before without 'is_deleted' * Add Replicated tests * Disable tag 'long' for our test and cleanup some white spaces * Update tests * Fix tests and remove additional useless whitespace * Fix replica test * Style clean && add condition check for is_deleted values * clean_deleted_rows settings is nom an enum * Add valid default value to the clean_deleted_rows settings * Update cleanup checkers to use the enum and fix typos in the test * Fix submodule contrib/AMQP-CPP pointer * Add missing messages in test reference and remove a print with non derterministic order * fix replica test reference * Fix edge case * Fix a typo for the spell checker * Fix reference * Fix a condition to raise an error if is_deleted differ from 0/1 and cleanup * Change tests file name and update number * This should fix the ReplacingMergeTree parameter set * Fix replicated parameters * Disable allow_deprecated_syntax_for_merge_tree for our new column * Fix a test * Remove non deterministic order print in the test * Test on replicas * Remove a condition, when checking optional parameters, that should not be sueful since we disabled the deprected_syntaxe * Revert "Remove a condition, when checking optional parameters, that should not be useful since we disabled the deprected_syntaxe" This reverts commit b65d64c05e482945ac20fcfcf0311e1b028ea137. * Fix replica management and limit the number of argument to two maximum, due to the possiblity of deprecated table create/attach failing otherwise * Test a fix for replicated log information error * Try to add sync to have consistent results * Change path of replicas that should cause one issue and add few prints in case it's not that * Get cleanup info on replicas only if information found * Fix style issues * Try to avoid replication error 'cannot select parts...' and and replica read/write field order * Cleanup according to PR reviews and add tests on error raised. * Update src/Storages/MergeTree/registerStorageMergeTree.cpp Co-authored-by: Alexander Tokmakov <tavplubix@gmail.com> * Select ... FINAL don't show rows with is_deleted = true * Update and fix SELECT ... FINAL merge parameter * Remove is_deleted rows only on the version inserted when merge * Fix (master) updates issues * Revert changes that should not be commited * Add changes according to review * Revert changes that should not be commited - part 2 --------- Co-authored-by: Alexander Tokmakov <tavplubix@gmail.com>
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bool cleanup,
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ContextPtr local_context)
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{
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auto storage_ptr = getInnerTable();
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auto metadata_snapshot = storage_ptr->getInMemoryMetadataPtr();
[RFC] Replacing merge tree new engine (#41005) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add new engine to ReplacingMergeTree corresponding to the ReplacingCollapsingMergeTree * Add new test for the new ReplacingMergeTree engine * Limit sign value to -1/1 * Replace sign column(Int8) by is_deleted(UInt8) * Add keyword 'CLEANUP' when OPTIMIZE * Cleanup uniquely when it's a replacingMergeTree * Propagate CLEANUP information and change from 'with_cleanup' to 'cleanup' * Cleanup data flagged as 'is_deleted' * Fix merge when optimize and add a test * Fix OPTIMIZE and INSERT + add tests * New fix for cleanup at the merge * Cleanup debug logs * Add the SETTINGS option 'clean_deleted_rows' that can be 'never' or 'always' * Fix regression bug; Now REplicatedMergeTree can be called as before without 'is_deleted' * Add Replicated tests * Disable tag 'long' for our test and cleanup some white spaces * Update tests * Fix tests and remove additional useless whitespace * Fix replica test * Style clean && add condition check for is_deleted values * clean_deleted_rows settings is nom an enum * Add valid default value to the clean_deleted_rows settings * Update cleanup checkers to use the enum and fix typos in the test * Fix submodule contrib/AMQP-CPP pointer * Add missing messages in test reference and remove a print with non derterministic order * fix replica test reference * Fix edge case * Fix a typo for the spell checker * Fix reference * Fix a condition to raise an error if is_deleted differ from 0/1 and cleanup * Change tests file name and update number * This should fix the ReplacingMergeTree parameter set * Fix replicated parameters * Disable allow_deprecated_syntax_for_merge_tree for our new column * Fix a test * Remove non deterministic order print in the test * Test on replicas * Remove a condition, when checking optional parameters, that should not be sueful since we disabled the deprected_syntaxe * Revert "Remove a condition, when checking optional parameters, that should not be useful since we disabled the deprected_syntaxe" This reverts commit b65d64c05e482945ac20fcfcf0311e1b028ea137. * Fix replica management and limit the number of argument to two maximum, due to the possiblity of deprecated table create/attach failing otherwise * Test a fix for replicated log information error * Try to add sync to have consistent results * Change path of replicas that should cause one issue and add few prints in case it's not that * Get cleanup info on replicas only if information found * Fix style issues * Try to avoid replication error 'cannot select parts...' and and replica read/write field order * Cleanup according to PR reviews and add tests on error raised. * Update src/Storages/MergeTree/registerStorageMergeTree.cpp Co-authored-by: Alexander Tokmakov <tavplubix@gmail.com> * Select ... FINAL don't show rows with is_deleted = true * Update and fix SELECT ... FINAL merge parameter * Remove is_deleted rows only on the version inserted when merge * Fix (master) updates issues * Revert changes that should not be commited * Add changes according to review * Revert changes that should not be commited - part 2 --------- Co-authored-by: Alexander Tokmakov <tavplubix@gmail.com>
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return getInnerTable()->optimize(query, metadata_snapshot, partition, final, deduplicate, deduplicate_by_columns, cleanup, local_context);
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}
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void StorageWindowView::alter(
const AlterCommands & params,
ContextPtr local_context,
AlterLockHolder &)
{
auto table_id = getStorageID();
StorageInMemoryMetadata new_metadata = getInMemoryMetadata();
StorageInMemoryMetadata old_metadata = getInMemoryMetadata();
params.apply(new_metadata, local_context);
const auto & new_select = new_metadata.select;
const auto & new_select_query = new_metadata.select.inner_query;
modifying_query = true;
SCOPE_EXIT({
modifying_query = false;
});
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shutdown();
auto inner_query = initInnerQuery(new_select_query->as<ASTSelectQuery &>(), local_context);
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output_header.clear();
InterpreterDropQuery::executeDropQuery(
ASTDropQuery::Kind::Drop, getContext(), local_context, inner_table_id, true);
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/// create inner table
auto create_context = Context::createCopy(local_context);
auto inner_create_query = getInnerTableCreateQuery(inner_query, inner_table_id);
InterpreterCreateQuery create_interpreter(inner_create_query, create_context);
create_interpreter.setInternal(true);
create_interpreter.execute();
DatabaseCatalog::instance().addViewDependency(select_table_id, table_id);
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shutdown_called = false;
clean_cache_task = getContext()->getSchedulePool().createTask(getStorageID().getFullTableName(), [this] { threadFuncCleanup(); });
fire_task = getContext()->getSchedulePool().createTask(
getStorageID().getFullTableName(), [this] { is_proctime ? threadFuncFireProc() : threadFuncFireEvent(); });
clean_cache_task->deactivate();
fire_task->deactivate();
new_metadata.setSelectQuery(new_select);
DatabaseCatalog::instance().getDatabase(table_id.database_name)->alterTable(local_context, table_id, new_metadata);
setInMemoryMetadata(new_metadata);
startup();
}
void StorageWindowView::checkAlterIsPossible(const AlterCommands & commands, ContextPtr /*local_context*/) const
{
for (const auto & command : commands)
{
if (!command.isCommentAlter() && command.type != AlterCommand::MODIFY_QUERY)
throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Alter of type '{}' is not supported by storage {}", command.type, getName());
}
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}
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std::pair<BlocksPtr, Block> StorageWindowView::getNewBlocks(UInt32 watermark)
{
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UInt32 w_start = addTime(watermark, window_kind, -window_num_units, *time_zone);
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auto inner_table = getInnerTable();
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InterpreterSelectQuery fetch(
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inner_fetch_query,
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getContext(),
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inner_table,
inner_table->getInMemoryMetadataPtr(),
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SelectQueryOptions(QueryProcessingStage::FetchColumns));
auto builder = fetch.buildQueryPipeline();
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ASTPtr filter_function;
if (is_tumble)
{
/// SELECT * FROM inner_table WHERE window_id_name == w_end
/// (because we fire at the end of windows)
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filter_function = makeASTFunction("equals", std::make_shared<ASTIdentifier>(window_id_name), std::make_shared<ASTLiteral>(watermark));
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}
else
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{
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auto func_array = makeASTFunction("array");
auto w_end = watermark;
while (w_start < w_end)
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{
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/// slice_num_units = std::gcd(hop_num_units, window_num_units);
/// We use std::gcd(hop_num_units, window_num_units) as the new window size
/// to split the overlapped windows into non-overlapped.
/// For a hopping window with window_size=3 slice=1, the windows might be
/// [1,3],[2,4],[3,5], which will cause recomputation.
/// In this case, the slice_num_units will be `gcd(1,3)=1' and the non-overlapped
/// windows will split into [1], [2], [3]... We compute each split window into
/// mergeable state and merge them when the window is triggering.
func_array ->arguments->children.push_back(std::make_shared<ASTLiteral>(w_end));
w_end = addTime(w_end, window_kind, -slice_num_units, *time_zone);
}
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filter_function = makeASTFunction("has", func_array, std::make_shared<ASTIdentifier>(window_id_name));
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}
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auto syntax_result = TreeRewriter(getContext()).analyze(filter_function, builder.getHeader().getNamesAndTypesList());
auto filter_expression = ExpressionAnalyzer(filter_function, syntax_result, getContext()).getActionsDAG(false);
builder.addSimpleTransform([&](const Block & header)
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{
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return std::make_shared<FilterTransform>(
header, std::make_shared<ExpressionActions>(filter_expression), filter_function->getColumnName(), true);
});
/// Adding window column
DataTypes window_column_type{std::make_shared<DataTypeDateTime>(), std::make_shared<DataTypeDateTime>()};
ColumnWithTypeAndName column;
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column.name = window_column_name;
column.type = std::make_shared<DataTypeTuple>(std::move(window_column_type));
column.column = column.type->createColumnConst(0, Tuple{w_start, watermark});
auto adding_column_dag = ActionsDAG::makeAddingColumnActions(std::move(column));
auto adding_column_actions
= std::make_shared<ExpressionActions>(std::move(adding_column_dag), ExpressionActionsSettings::fromContext(getContext()));
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builder.addSimpleTransform([&](const Block & header)
{
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return std::make_shared<ExpressionTransform>(header, adding_column_actions);
});
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/// Removing window id column
auto new_header = builder.getHeader();
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new_header.erase(window_id_name);
auto convert_actions_dag = ActionsDAG::makeConvertingActions(
builder.getHeader().getColumnsWithTypeAndName(),
new_header.getColumnsWithTypeAndName(),
ActionsDAG::MatchColumnsMode::Name);
auto actions = std::make_shared<ExpressionActions>(
convert_actions_dag, ExpressionActionsSettings::fromContext(getContext(), CompileExpressions::yes));
builder.addSimpleTransform([&](const Block & stream_header)
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{
return std::make_shared<ExpressionTransform>(stream_header, actions);
});
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builder.addSimpleTransform([&](const Block & header)
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{
return std::make_shared<AddingAggregatedChunkInfoTransform>(header);
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});
Pipes pipes;
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QueryPlanResourceHolder resources;
auto pipe = QueryPipelineBuilder::getPipe(std::move(builder), resources);
pipes.emplace_back(std::move(pipe));
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auto creator = [&](const StorageID & blocks_id_global)
{
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auto source_table_metadata = getSourceTable()->getInMemoryMetadataPtr();
auto required_columns = source_table_metadata->getColumns();
required_columns.add(ColumnDescription("____timestamp", std::make_shared<DataTypeDateTime>()));
return StorageBlocks::createStorage(blocks_id_global, required_columns, std::move(pipes), QueryProcessingStage::WithMergeableState);
};
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TemporaryTableHolder blocks_storage(getContext(), creator);
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InterpreterSelectQuery select(
getFinalQuery(),
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getContext(),
blocks_storage.getTable(),
blocks_storage.getTable()->getInMemoryMetadataPtr(),
SelectQueryOptions(QueryProcessingStage::Complete));
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builder = select.buildQueryPipeline();
builder.addSimpleTransform([&](const Block & current_header)
{
return std::make_shared<MaterializingTransform>(current_header);
});
builder.addSimpleTransform([&](const Block & current_header)
{
return std::make_shared<SquashingChunksTransform>(
current_header,
getContext()->getSettingsRef().min_insert_block_size_rows,
getContext()->getSettingsRef().min_insert_block_size_bytes);
});
auto header = builder.getHeader();
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auto pipeline = QueryPipelineBuilder::getPipeline(std::move(builder));
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PullingAsyncPipelineExecutor executor(pipeline);
Block block;
BlocksPtr new_blocks = std::make_shared<Blocks>();
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while (executor.pull(block))
{
if (block.rows() == 0)
continue;
new_blocks->push_back(std::move(block));
}
return std::make_pair(new_blocks, header);
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}
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inline void StorageWindowView::fire(UInt32 watermark)
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{
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LOG_TRACE(log, "Watch streams number: {}, target table: {}",
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watch_streams.size(),
target_table_id.empty() ? "None" : target_table_id.getNameForLogs());
if (target_table_id.empty() && watch_streams.empty())
return;
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BlocksPtr blocks;
Block header;
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std::lock_guard lock(mutex);
std::tie(blocks, header) = getNewBlocks(watermark);
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if (!blocks || blocks->empty())
return;
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for (const auto & block : *blocks)
{
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for (auto & watch_stream : watch_streams)
{
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if (auto watch_stream_ptr = watch_stream.lock())
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watch_stream_ptr->addBlock(block, watermark);
}
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fire_condition.notify_all();
}
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if (!target_table_id.empty())
{
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StoragePtr target_table = getTargetTable();
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auto insert = std::make_shared<ASTInsertQuery>();
insert->table_id = target_table->getStorageID();
InterpreterInsertQuery interpreter(insert, getContext());
auto block_io = interpreter.execute();
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auto pipe = Pipe(std::make_shared<BlocksSource>(blocks, header));
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auto adding_missing_defaults_dag = addMissingDefaults(
pipe.getHeader(),
block_io.pipeline.getHeader().getNamesAndTypesList(),
getTargetTable()->getInMemoryMetadataPtr()->getColumns(),
getContext(),
getContext()->getSettingsRef().insert_null_as_default);
auto adding_missing_defaults_actions = std::make_shared<ExpressionActions>(adding_missing_defaults_dag);
pipe.addSimpleTransform([&](const Block & stream_header)
{
return std::make_shared<ExpressionTransform>(stream_header, adding_missing_defaults_actions);
});
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auto convert_actions_dag = ActionsDAG::makeConvertingActions(
pipe.getHeader().getColumnsWithTypeAndName(),
block_io.pipeline.getHeader().getColumnsWithTypeAndName(),
ActionsDAG::MatchColumnsMode::Position);
auto actions = std::make_shared<ExpressionActions>(
convert_actions_dag,
ExpressionActionsSettings::fromContext(getContext(), CompileExpressions::yes));
pipe.addSimpleTransform([&](const Block & stream_header)
{
return std::make_shared<ExpressionTransform>(stream_header, actions);
});
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block_io.pipeline.complete(std::move(pipe));
CompletedPipelineExecutor executor(block_io.pipeline);
executor.execute();
}
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}
ASTPtr StorageWindowView::getSourceTableSelectQuery()
{
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auto query = select_query->clone();
auto & modified_select = query->as<ASTSelectQuery &>();
if (hasJoin(modified_select))
{
auto analyzer_res = TreeRewriterResult({});
removeJoin(modified_select, analyzer_res, getContext());
}
else
{
modified_select.setExpression(ASTSelectQuery::Expression::HAVING, {});
modified_select.setExpression(ASTSelectQuery::Expression::GROUP_BY, {});
}
auto select_list = std::make_shared<ASTExpressionList>();
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for (const auto & column_name : getInputHeader().getNames())
select_list->children.emplace_back(std::make_shared<ASTIdentifier>(column_name));
modified_select.setExpression(ASTSelectQuery::Expression::SELECT, select_list);
if (!is_time_column_func_now)
{
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auto query = select_query->clone();
DropTableIdentifierMatcher::Data drop_table_identifier_data;
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DropTableIdentifierMatcher::Visitor(drop_table_identifier_data).visit(query);
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WindowFunctionMatcher::Data query_info_data;
WindowFunctionMatcher::Visitor(query_info_data).visit(query);
auto order_by = std::make_shared<ASTExpressionList>();
auto order_by_elem = std::make_shared<ASTOrderByElement>();
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order_by_elem->children.push_back(std::make_shared<ASTIdentifier>(timestamp_column_name));
order_by_elem->direction = 1;
order_by->children.push_back(order_by_elem);
modified_select.setExpression(ASTSelectQuery::Expression::ORDER_BY, std::move(order_by));
}
else
modified_select.setExpression(ASTSelectQuery::Expression::ORDER_BY, {});
const auto select_with_union_query = std::make_shared<ASTSelectWithUnionQuery>();
select_with_union_query->list_of_selects = std::make_shared<ASTExpressionList>();
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select_with_union_query->list_of_selects->children.push_back(query);
return select_with_union_query;
}
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ASTPtr StorageWindowView::getInnerTableCreateQuery(const ASTPtr & inner_query, const StorageID & inner_table_id)
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{
/// We will create a query to create an internal table.
auto inner_create_query = std::make_shared<ASTCreateQuery>();
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inner_create_query->setDatabase(inner_table_id.getDatabaseName());
inner_create_query->setTable(inner_table_id.getTableName());
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Aliases aliases;
QueryAliasesVisitor(aliases).visit(inner_query);
auto inner_query_normalized = inner_query->clone();
QueryNormalizer::Data normalizer_data(aliases, {}, false, getContext()->getSettingsRef(), false);
QueryNormalizer(normalizer_data).visit(inner_query_normalized);
auto inner_select_query = std::static_pointer_cast<ASTSelectQuery>(inner_query_normalized);
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auto t_sample_block
= InterpreterSelectQuery(inner_select_query, getContext(), SelectQueryOptions(QueryProcessingStage::WithMergeableState))
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.getSampleBlock();
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ASTPtr columns_list = InterpreterCreateQuery::formatColumns(t_sample_block.getNamesAndTypesList());
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if (is_time_column_func_now)
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{
auto column_window = std::make_shared<ASTColumnDeclaration>();
column_window->name = window_id_name;
column_window->type = std::make_shared<ASTIdentifier>("UInt32");
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columns_list->children.push_back(column_window);
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}
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ToIdentifierMatcher::Data query_data;
query_data.window_id_name = window_id_name;
query_data.window_id_alias = window_id_alias;
ToIdentifierMatcher::Visitor to_identifier_visitor(query_data);
ReplaceFunctionNowData time_now_data;
ReplaceFunctionNowVisitor time_now_visitor(time_now_data);
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WindowFunctionMatcher::Data window_data;
WindowFunctionMatcher::Visitor window_visitor(window_data);
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DropTableIdentifierMatcher::Data drop_table_identifier_data;
DropTableIdentifierMatcher::Visitor drop_table_identifier_visitor(drop_table_identifier_data);
auto visit = [&](const IAST * ast)
{
auto node = ast->clone();
QueryNormalizer(normalizer_data).visit(node);
/// now() -> ____timestamp
if (is_time_column_func_now)
{
time_now_visitor.visit(node);
function_now_timezone = time_now_data.now_timezone;
}
drop_table_identifier_visitor.visit(node);
/// tumble/hop -> windowID
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window_visitor.visit(node);
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to_identifier_visitor.visit(node);
node->setAlias("");
return node;
};
auto new_storage = std::make_shared<ASTStorage>();
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/// inner_storage_engine != nullptr in case create window view with ENGINE syntax
if (inner_table_engine)
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{
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auto storage = inner_table_engine->as<ASTStorage &>();
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if (storage.ttl_table)
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throw Exception(
ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW,
"TTL is not supported for inner table in Window View");
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new_storage->set(new_storage->engine, storage.engine->clone());
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if (endsWith(storage.engine->name, "MergeTree"))
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{
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if (storage.partition_by)
new_storage->set(new_storage->partition_by, visit(storage.partition_by));
if (storage.primary_key)
new_storage->set(new_storage->primary_key, visit(storage.primary_key));
if (storage.order_by)
new_storage->set(new_storage->order_by, visit(storage.order_by));
if (storage.sample_by)
new_storage->set(new_storage->sample_by, visit(storage.sample_by));
if (storage.settings)
new_storage->set(new_storage->settings, storage.settings->clone());
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}
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}
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else
{
new_storage->set(new_storage->engine, makeASTFunction("AggregatingMergeTree"));
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if (inner_select_query->groupBy()->children.size() == 1) //GROUP BY windowID
{
auto node = visit(inner_select_query->groupBy()->children[0].get());
new_storage->set(new_storage->order_by, std::make_shared<ASTIdentifier>(node->getColumnName()));
}
else
{
auto group_by_function = makeASTFunction("tuple");
for (auto & child : inner_select_query->groupBy()->children)
{
auto node = visit(child.get());
group_by_function->arguments->children.push_back(std::make_shared<ASTIdentifier>(node->getColumnName()));
}
new_storage->set(new_storage->order_by, group_by_function);
}
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}
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auto new_columns = std::make_shared<ASTColumns>();
new_columns->set(new_columns->columns, columns_list);
inner_create_query->set(inner_create_query->columns_list, new_columns);
inner_create_query->set(inner_create_query->storage, new_storage);
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return inner_create_query;
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}
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UInt32 StorageWindowView::getWindowLowerBound(UInt32 time_sec)
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{
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switch (slide_kind)
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{
case IntervalKind::Nanosecond:
case IntervalKind::Microsecond:
case IntervalKind::Millisecond:
throw Exception(ErrorCodes::SYNTAX_ERROR, "Fractional seconds are not supported by windows yet");
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#define CASE_WINDOW_KIND(KIND) \
case IntervalKind::KIND: \
{ \
if (is_tumble) \
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return ToStartOfTransform<IntervalKind::KIND>::execute(time_sec, window_num_units, *time_zone); \
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else \
{\
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UInt32 w_start = ToStartOfTransform<IntervalKind::KIND>::execute(time_sec, hop_num_units, *time_zone); \
UInt32 w_end = AddTime<IntervalKind::KIND>::execute(w_start, hop_num_units, *time_zone);\
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return AddTime<IntervalKind::KIND>::execute(w_end, -window_num_units, *time_zone);\
}\
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}
CASE_WINDOW_KIND(Second)
CASE_WINDOW_KIND(Minute)
CASE_WINDOW_KIND(Hour)
CASE_WINDOW_KIND(Day)
CASE_WINDOW_KIND(Week)
CASE_WINDOW_KIND(Month)
CASE_WINDOW_KIND(Quarter)
CASE_WINDOW_KIND(Year)
#undef CASE_WINDOW_KIND
}
UNREACHABLE();
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}
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UInt32 StorageWindowView::getWindowUpperBound(UInt32 time_sec)
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{
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switch (slide_kind)
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{
case IntervalKind::Nanosecond:
case IntervalKind::Microsecond:
case IntervalKind::Millisecond:
throw Exception(ErrorCodes::SYNTAX_ERROR, "Fractional seconds are not supported by window view yet");
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#define CASE_WINDOW_KIND(KIND) \
case IntervalKind::KIND: \
{ \
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UInt32 w_start = ToStartOfTransform<IntervalKind::KIND>::execute(time_sec, slide_num_units, *time_zone); \
return AddTime<IntervalKind::KIND>::execute(w_start, slide_num_units, *time_zone); \
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}
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CASE_WINDOW_KIND(Second)
CASE_WINDOW_KIND(Minute)
CASE_WINDOW_KIND(Hour)
CASE_WINDOW_KIND(Day)
CASE_WINDOW_KIND(Week)
CASE_WINDOW_KIND(Month)
CASE_WINDOW_KIND(Quarter)
CASE_WINDOW_KIND(Year)
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#undef CASE_WINDOW_KIND
}
UNREACHABLE();
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}
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void StorageWindowView::addFireSignal(std::set<UInt32> & signals)
{
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std::lock_guard lock(fire_signal_mutex);
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for (const auto & signal : signals)
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fire_signal.push_back(signal);
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fire_task->schedule();
}
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void StorageWindowView::updateMaxTimestamp(UInt32 timestamp)
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{
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std::lock_guard lock(fire_signal_mutex);
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if (timestamp > max_timestamp)
max_timestamp = timestamp;
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}
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void StorageWindowView::updateMaxWatermark(UInt32 watermark)
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{
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if (is_proctime)
{
max_watermark = watermark;
return;
}
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std::lock_guard lock(fire_signal_mutex);
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bool updated;
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if (is_watermark_strictly_ascending)
{
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updated = max_watermark < watermark;
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while (max_watermark < watermark)
{
fire_signal.push_back(max_watermark);
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max_watermark = addTime(max_watermark, slide_kind, slide_num_units, *time_zone);
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}
}
else // strictly || bounded
{
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UInt32 max_watermark_bias = addTime(max_watermark, watermark_kind, watermark_num_units, *time_zone);
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updated = max_watermark_bias <= watermark;
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while (max_watermark_bias <= max_timestamp)
{
fire_signal.push_back(max_watermark);
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max_watermark = addTime(max_watermark, slide_kind, slide_num_units, *time_zone);
max_watermark_bias = addTime(max_watermark, slide_kind, slide_num_units, *time_zone);
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}
}
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if (updated)
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fire_task->schedule();
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}
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void StorageWindowView::cleanup()
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{
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std::lock_guard fire_signal_lock(fire_signal_mutex);
std::lock_guard mutex_lock(mutex);
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auto alter_query = getCleanupQuery();
auto cleanup_context = Context::createCopy(getContext());
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cleanup_context->makeQueryContext();
cleanup_context->setCurrentQueryId("");
cleanup_context->getClientInfo().is_replicated_database_internal = true;
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InterpreterAlterQuery interpreter_alter(alter_query, cleanup_context);
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interpreter_alter.execute();
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watch_streams.remove_if([](std::weak_ptr<WindowViewSource> & ptr) { return ptr.expired(); });
}
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void StorageWindowView::threadFuncCleanup()
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{
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if (shutdown_called)
return;
if ((Poco::Timestamp().epochMicroseconds() - last_clean_timestamp_usec) > clean_interval_usec)
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{
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try
{
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cleanup();
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
last_clean_timestamp_usec = Poco::Timestamp().epochMicroseconds();
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}
}
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void StorageWindowView::threadFuncFireProc()
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{
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if (shutdown_called)
return;
std::lock_guard lock(fire_signal_mutex);
/// TODO: consider using time_t instead (for every timestamp in this class)
UInt32 timestamp_now = static_cast<UInt32>(std::time(nullptr));
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while (next_fire_signal <= timestamp_now)
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{
try
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{
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if (max_watermark >= timestamp_now)
fire(next_fire_signal);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
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max_fired_watermark = next_fire_signal;
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auto slide_interval = addTime(0, slide_kind, slide_num_units, *time_zone);
/// Convert DayNum into seconds when the slide interval is larger than Day
if (slide_kind > IntervalKind::Day)
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slide_interval *= 86400;
next_fire_signal += slide_interval;
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}
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if (max_watermark >= timestamp_now)
clean_cache_task->schedule();
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UInt64 timestamp_ms = static_cast<UInt64>(Poco::Timestamp().epochMicroseconds()) / 1000;
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if (!shutdown_called)
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fire_task->scheduleAfter(std::max(UInt64(0), static_cast<UInt64>(next_fire_signal) * 1000 - timestamp_ms));
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}
void StorageWindowView::threadFuncFireEvent()
{
std::lock_guard lock(fire_signal_mutex);
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LOG_TRACE(log, "Fire events: {}", fire_signal.size());
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while (!shutdown_called && !fire_signal.empty())
{
try
{
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fire(fire_signal.front());
}
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catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
max_fired_watermark = fire_signal.front();
fire_signal.pop_front();
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}
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clean_cache_task->schedule();
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}
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void StorageWindowView::read(
QueryPlan & query_plan,
const Names & column_names,
const StorageSnapshotPtr & storage_snapshot,
SelectQueryInfo & query_info,
ContextPtr local_context,
QueryProcessingStage::Enum processed_stage,
const size_t max_block_size,
const size_t num_streams)
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{
if (target_table_id.empty())
return;
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auto storage = getTargetTable();
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auto lock = storage->lockForShare(local_context->getCurrentQueryId(), local_context->getSettingsRef().lock_acquire_timeout);
auto target_metadata_snapshot = storage->getInMemoryMetadataPtr();
auto target_storage_snapshot = storage->getStorageSnapshot(target_metadata_snapshot, local_context);
if (query_info.order_optimizer)
query_info.input_order_info = query_info.order_optimizer->getInputOrder(target_metadata_snapshot, local_context);
storage->read(query_plan, column_names, target_storage_snapshot, query_info, local_context, processed_stage, max_block_size, num_streams);
if (query_plan.isInitialized())
{
auto wv_header = getHeaderForProcessingStage(column_names, storage_snapshot, query_info, local_context, processed_stage);
auto target_header = query_plan.getCurrentDataStream().header;
if (!blocksHaveEqualStructure(wv_header, target_header))
{
auto converting_actions = ActionsDAG::makeConvertingActions(
target_header.getColumnsWithTypeAndName(), wv_header.getColumnsWithTypeAndName(), ActionsDAG::MatchColumnsMode::Name);
auto converting_step = std::make_unique<ExpressionStep>(query_plan.getCurrentDataStream(), converting_actions);
converting_step->setStepDescription("Convert Target table structure to WindowView structure");
query_plan.addStep(std::move(converting_step));
}
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query_plan.addStorageHolder(storage);
query_plan.addTableLock(std::move(lock));
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}
}
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Pipe StorageWindowView::watch(
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const Names & /*column_names*/,
const SelectQueryInfo & query_info,
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ContextPtr local_context,
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QueryProcessingStage::Enum & processed_stage,
size_t /*max_block_size*/,
const size_t /*num_streams*/)
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{
ASTWatchQuery & query = typeid_cast<ASTWatchQuery &>(*query_info.query);
bool has_limit = false;
UInt64 limit = 0;
if (query.limit_length)
{
has_limit = true;
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limit = typeid_cast<ASTLiteral &>(*query.limit_length).value.safeGet<UInt64>();
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}
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auto reader = std::make_shared<WindowViewSource>(
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std::static_pointer_cast<StorageWindowView>(shared_from_this()),
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query.is_watch_events,
window_view_timezone,
has_limit,
limit,
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local_context->getSettingsRef().window_view_heartbeat_interval.totalSeconds());
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std::lock_guard lock(fire_signal_mutex);
watch_streams.push_back(reader);
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processed_stage = QueryProcessingStage::Complete;
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return Pipe(reader);
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}
StorageWindowView::StorageWindowView(
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const StorageID & table_id_,
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ContextPtr context_,
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const ASTCreateQuery & query,
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const ColumnsDescription & columns_,
bool attach_)
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: IStorage(table_id_)
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, WithContext(context_->getGlobalContext())
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, log(&Poco::Logger::get(fmt::format("StorageWindowView({}.{})", table_id_.database_name, table_id_.table_name)))
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, fire_signal_timeout_s(context_->getSettingsRef().wait_for_window_view_fire_signal_timeout.totalSeconds())
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, clean_interval_usec(context_->getSettingsRef().window_view_clean_interval.totalMicroseconds())
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{
if (context_->getSettingsRef().allow_experimental_analyzer)
throw Exception(ErrorCodes::UNSUPPORTED_METHOD,
"Experimental WINDOW VIEW feature is not supported with new infrastructure for query analysis (the setting 'allow_experimental_analyzer')");
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if (!query.select)
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throw Exception(ErrorCodes::INCORRECT_QUERY, "SELECT query is not specified for {}", getName());
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StorageInMemoryMetadata storage_metadata;
storage_metadata.setColumns(columns_);
setInMemoryMetadata(storage_metadata);
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/// If the target table is not set, use inner target table
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has_inner_target_table = query.to_table_id.empty();
if (has_inner_target_table && !query.storage)
throw Exception(ErrorCodes::INCORRECT_QUERY,
"You must specify where to save results of a WindowView query: "
"either ENGINE or an existing table in a TO clause");
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if (query.select->list_of_selects->children.size() != 1)
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throw Exception(
ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW,
"UNION is not supported for {}", getName());
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/// Extract information about watermark, lateness.
eventTimeParser(query);
auto inner_query = initInnerQuery(query.select->list_of_selects->children.at(0)->as<ASTSelectQuery &>(), context_);
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if (query.inner_storage)
inner_table_engine = query.inner_storage->clone();
inner_table_id = StorageID(getStorageID().database_name, generateInnerTableName(getStorageID()));
inner_fetch_query = generateInnerFetchQuery(inner_table_id);
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target_table_id = has_inner_target_table ? StorageID(table_id_.database_name, generateTargetTableName(table_id_)) : query.to_table_id;
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if (is_proctime)
next_fire_signal = getWindowUpperBound(static_cast<UInt32>(std::time(nullptr)));
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std::exchange(has_inner_table, true);
if (!attach_)
{
auto inner_create_query = getInnerTableCreateQuery(inner_query, inner_table_id);
auto create_context = Context::createCopy(context_);
InterpreterCreateQuery create_interpreter(inner_create_query, create_context);
create_interpreter.setInternal(true);
create_interpreter.execute();
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if (has_inner_target_table)
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{
/// create inner target table
auto create_context = Context::createCopy(context_);
auto target_create_query = std::make_shared<ASTCreateQuery>();
target_create_query->setDatabase(table_id_.database_name);
target_create_query->setTable(generateTargetTableName(table_id_));
auto new_columns_list = std::make_shared<ASTColumns>();
new_columns_list->set(new_columns_list->columns, query.columns_list->columns->ptr());
target_create_query->set(target_create_query->columns_list, new_columns_list);
target_create_query->set(target_create_query->storage, query.storage->ptr());
InterpreterCreateQuery create_interpreter(target_create_query, create_context);
create_interpreter.setInternal(true);
create_interpreter.execute();
}
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}
clean_cache_task = getContext()->getSchedulePool().createTask(getStorageID().getFullTableName(), [this] { threadFuncCleanup(); });
fire_task = getContext()->getSchedulePool().createTask(
getStorageID().getFullTableName(), [this] { is_proctime ? threadFuncFireProc() : threadFuncFireEvent(); });
clean_cache_task->deactivate();
fire_task->deactivate();
}
ASTPtr StorageWindowView::initInnerQuery(ASTSelectQuery query, ContextPtr context_)
{
select_query = query.clone();
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output_header.clear();
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String select_database_name = getContext()->getCurrentDatabase();
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String select_table_name;
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auto select_query_tmp = query.clone();
extractDependentTable(context_, select_query_tmp, select_database_name, select_table_name);
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/// If the table is not specified - use the table `system.one`
if (select_table_name.empty())
{
select_database_name = "system";
select_table_name = "one";
}
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select_table_id = StorageID(select_database_name, select_table_name);
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/// Extract all info from query; substitute Function_tumble and Function_hop with Function_windowID.
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auto inner_query = innerQueryParser(query);
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/// Parse mergeable query
mergeable_query = inner_query->clone();
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ReplaceFunctionNowData func_now_data;
ReplaceFunctionNowVisitor(func_now_data).visit(mergeable_query);
is_time_column_func_now = func_now_data.is_time_column_func_now;
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if (!is_proctime && is_time_column_func_now)
throw Exception(ErrorCodes::INCORRECT_QUERY, "now() is not supported for Event time processing.");
if (is_time_column_func_now)
window_id_name = func_now_data.window_id_name;
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window_column_name = std::regex_replace(window_id_name, std::regex("windowID"), is_tumble ? "tumble" : "hop");
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/// Parse final query (same as mergeable query but has tumble/hop instead of windowID)
final_query = mergeable_query->clone();
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ReplaceWindowIdMatcher::Data final_query_data;
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final_query_data.window_name = is_tumble ? "tumble" : "hop";
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ReplaceWindowIdMatcher::Visitor(final_query_data).visit(final_query);
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return inner_query;
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}
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ASTPtr StorageWindowView::innerQueryParser(const ASTSelectQuery & query)
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{
if (!query.groupBy())
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throw Exception(ErrorCodes::INCORRECT_QUERY, "GROUP BY query is required for {}", getName());
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// Parse stage mergeable
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ASTPtr result = query.clone();
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WindowFunctionMatcher::Data query_info_data;
query_info_data.check_duplicate_window = true;
WindowFunctionMatcher::Visitor(query_info_data).visit(result);
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if (!query_info_data.is_tumble && !query_info_data.is_hop)
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throw Exception(ErrorCodes::INCORRECT_QUERY,
"TIME WINDOW FUNCTION is not specified for {}", getName());
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is_tumble = query_info_data.is_tumble;
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// Parse time window function
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ASTFunction & window_function = typeid_cast<ASTFunction &>(*query_info_data.window_function);
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const auto & arguments = window_function.arguments->children;
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extractWindowArgument(
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arguments.at(1), window_kind, window_num_units,
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"Illegal type of second argument of function " + window_function.name + " should be Interval");
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window_id_alias = window_function.alias;
if (auto * node = arguments[0]->as<ASTIdentifier>())
timestamp_column_name = node->shortName();
DropTableIdentifierMatcher::Data drop_identifier_data;
DropTableIdentifierMatcher::Visitor(drop_identifier_data).visit(query_info_data.window_function);
window_id_name = window_function.getColumnName();
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slide_kind = window_kind;
slide_num_units = window_num_units;
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if (!is_tumble)
{
hop_kind = window_kind;
hop_num_units = window_num_units;
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extractWindowArgument(
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arguments.at(2), window_kind, window_num_units,
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"Illegal type of third argument of function " + window_function.name + " should be Interval");
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slice_num_units = std::gcd(hop_num_units, window_num_units);
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}
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// Parse time zone
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size_t time_zone_arg_num = is_tumble ? 2 : 3;
if (arguments.size() > time_zone_arg_num)
{
const auto & ast = arguments.at(time_zone_arg_num);
const auto * time_zone_ast = ast->as<ASTLiteral>();
if (!time_zone_ast || time_zone_ast->value.getType() != Field::Types::String)
throw Exception(
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ErrorCodes::ILLEGAL_COLUMN,
"Illegal column #{} of time zone argument of function, must be constant string",
time_zone_arg_num);
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window_view_timezone = time_zone_ast->value.safeGet<String>();
time_zone = &DateLUT::instance(window_view_timezone);
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}
else
time_zone = &DateLUT::instance();
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return result;
}
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void StorageWindowView::eventTimeParser(const ASTCreateQuery & query)
{
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watermark_num_units = 0;
lateness_num_units = 0;
is_watermark_strictly_ascending = query.is_watermark_strictly_ascending;
is_watermark_ascending = query.is_watermark_ascending;
is_watermark_bounded = query.is_watermark_bounded;
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if (query.is_watermark_strictly_ascending || query.is_watermark_ascending || query.is_watermark_bounded)
{
is_proctime = false;
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if (query.is_watermark_ascending)
{
is_watermark_bounded = true;
watermark_kind = IntervalKind::Second;
watermark_num_units = 1;
}
else if (query.is_watermark_bounded)
{
extractWindowArgument(
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query.watermark_function, watermark_kind, watermark_num_units,
"Illegal type WATERMARK function should be Interval");
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}
}
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else
is_proctime = true;
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if (query.allowed_lateness)
{
allowed_lateness = true;
extractWindowArgument(
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query.lateness_function, lateness_kind, lateness_num_units,
"Illegal type ALLOWED_LATENESS function should be Interval");
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}
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else
allowed_lateness = false;
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}
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void StorageWindowView::writeIntoWindowView(
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StorageWindowView & window_view, const Block & block, ContextPtr local_context)
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{
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while (window_view.modifying_query)
std::this_thread::sleep_for(std::chrono::milliseconds(100));
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if (!window_view.is_proctime && window_view.max_watermark == 0 && block.rows() > 0)
{
std::lock_guard lock(window_view.fire_signal_mutex);
const auto & window_column = block.getByName(window_view.timestamp_column_name);
const ColumnUInt32::Container & window_end_data = static_cast<const ColumnUInt32 &>(*window_column.column).getData();
UInt32 first_record_timestamp = window_end_data[0];
window_view.max_watermark = window_view.getWindowUpperBound(first_record_timestamp);
}
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Pipe pipe(std::make_shared<SourceFromSingleChunk>(block.cloneEmpty(), Chunk(block.getColumns(), block.rows())));
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UInt32 lateness_bound = 0;
UInt32 t_max_watermark = 0;
UInt32 t_max_timestamp = 0;
UInt32 t_max_fired_watermark = 0;
{
std::lock_guard lock(window_view.fire_signal_mutex);
t_max_fired_watermark = window_view.max_fired_watermark;
t_max_watermark = window_view.max_watermark;
t_max_timestamp = window_view.max_timestamp;
}
// Filter outdated data
if (window_view.allowed_lateness && t_max_timestamp != 0)
{
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lateness_bound = addTime(t_max_timestamp, window_view.lateness_kind, -window_view.lateness_num_units, *window_view.time_zone);
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if (window_view.is_watermark_bounded)
{
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UInt32 watermark_lower_bound
= addTime(t_max_watermark, window_view.slide_kind, -window_view.slide_num_units, *window_view.time_zone);
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if (watermark_lower_bound < lateness_bound)
lateness_bound = watermark_lower_bound;
}
}
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else if (!window_view.is_time_column_func_now)
{
lateness_bound = t_max_fired_watermark;
}
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if (lateness_bound > 0) /// Add filter, which leaves rows with timestamp >= lateness_bound
{
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auto filter_function = makeASTFunction(
"greaterOrEquals",
std::make_shared<ASTIdentifier>(window_view.timestamp_column_name),
std::make_shared<ASTLiteral>(lateness_bound));
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ASTPtr query = filter_function;
NamesAndTypesList columns;
columns.emplace_back(window_view.timestamp_column_name, std::make_shared<DataTypeDateTime>());
auto syntax_result = TreeRewriter(local_context).analyze(query, columns);
auto filter_expression = ExpressionAnalyzer(filter_function, syntax_result, local_context).getActionsDAG(false);
pipe.addSimpleTransform([&](const Block & header)
{
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return std::make_shared<FilterTransform>(
header, std::make_shared<ExpressionActions>(filter_expression),
filter_function->getColumnName(), true);
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});
}
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std::shared_lock<SharedMutex> fire_signal_lock;
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QueryPipelineBuilder builder;
if (window_view.is_proctime)
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{
fire_signal_lock = std::shared_lock(window_view.fire_signal_mutex);
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/// Fill ____timestamp column with current time in case of now() time column.
if (window_view.is_time_column_func_now)
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{
ColumnWithTypeAndName column;
column.name = "____timestamp";
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const auto & timezone = window_view.function_now_timezone;
if (timezone.empty())
column.type = std::make_shared<DataTypeDateTime>();
else
column.type = std::make_shared<DataTypeDateTime>(timezone);
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column.column = column.type->createColumnConst(0, Field(std::time(nullptr)));
auto adding_column_dag = ActionsDAG::makeAddingColumnActions(std::move(column));
auto adding_column_actions = std::make_shared<ExpressionActions>(
std::move(adding_column_dag),
ExpressionActionsSettings::fromContext(local_context));
pipe.addSimpleTransform([&](const Block & stream_header)
{
return std::make_shared<ExpressionTransform>(stream_header, adding_column_actions);
});
}
}
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Pipes pipes;
pipes.emplace_back(std::move(pipe));
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auto creator = [&](const StorageID & blocks_id_global)
{
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auto source_metadata = window_view.getSourceTable()->getInMemoryMetadataPtr();
auto required_columns = source_metadata->getColumns();
required_columns.add(ColumnDescription("____timestamp", std::make_shared<DataTypeDateTime>()));
return StorageBlocks::createStorage(blocks_id_global, required_columns, std::move(pipes), QueryProcessingStage::FetchColumns);
};
TemporaryTableHolder blocks_storage(local_context, creator);
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InterpreterSelectQuery select_block(
window_view.getMergeableQuery(),
local_context,
blocks_storage.getTable(),
blocks_storage.getTable()->getInMemoryMetadataPtr(),
QueryProcessingStage::WithMergeableState);
builder = select_block.buildQueryPipeline();
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builder.addSimpleTransform([&](const Block & current_header)
{
return std::make_shared<SquashingChunksTransform>(
current_header,
local_context->getSettingsRef().min_insert_block_size_rows,
local_context->getSettingsRef().min_insert_block_size_bytes);
});
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if (!window_view.is_proctime)
{
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UInt32 block_max_timestamp = 0;
if (window_view.is_watermark_bounded || window_view.allowed_lateness)
{
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const auto & timestamp_column = *block.getByName(window_view.timestamp_column_name).column;
const auto & timestamp_data = typeid_cast<const ColumnUInt32 &>(timestamp_column).getData();
for (const auto & timestamp : timestamp_data)
{
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if (timestamp > block_max_timestamp)
block_max_timestamp = timestamp;
}
}
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if (block_max_timestamp)
window_view.updateMaxTimestamp(block_max_timestamp);
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}
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UInt32 lateness_upper_bound = 0;
if (!window_view.is_proctime && window_view.allowed_lateness && t_max_fired_watermark)
lateness_upper_bound = t_max_fired_watermark;
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/// On each chunk check window end for each row in a window column, calculating max.
/// Update max watermark (latest seen window end) if needed.
/// If lateness is allowed, add lateness signals.
builder.addSimpleTransform([&](const Block & current_header)
{
return std::make_shared<WatermarkTransform>(
current_header,
window_view,
window_view.window_id_name,
lateness_upper_bound);
});
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auto inner_table = window_view.getInnerTable();
auto lock = inner_table->lockForShare(
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local_context->getCurrentQueryId(), local_context->getSettingsRef().lock_acquire_timeout);
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auto metadata_snapshot = inner_table->getInMemoryMetadataPtr();
auto output = inner_table->write(window_view.getMergeableQuery(), metadata_snapshot, local_context);
output->addTableLock(lock);
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if (!blocksHaveEqualStructure(builder.getHeader(), output->getHeader()))
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{
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auto convert_actions_dag = ActionsDAG::makeConvertingActions(
builder.getHeader().getColumnsWithTypeAndName(),
output->getHeader().getColumnsWithTypeAndName(),
ActionsDAG::MatchColumnsMode::Name);
auto convert_actions = std::make_shared<ExpressionActions>(
convert_actions_dag, ExpressionActionsSettings::fromContext(local_context, CompileExpressions::yes));
builder.addSimpleTransform([&](const Block & header) { return std::make_shared<ExpressionTransform>(header, convert_actions); });
}
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builder.addChain(Chain(std::move(output)));
builder.setSinks([&](const Block & cur_header, Pipe::StreamType)
{
return std::make_shared<EmptySink>(cur_header);
});
auto executor = builder.execute();
executor->execute(builder.getNumThreads());
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}
void StorageWindowView::startup()
{
DatabaseCatalog::instance().addViewDependency(select_table_id, getStorageID());
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fire_task->activate();
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clean_cache_task->activate();
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/// Start the working thread
if (is_proctime)
fire_task->schedule();
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}
void StorageWindowView::shutdown()
{
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shutdown_called = true;
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fire_condition.notify_all();
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clean_cache_task->deactivate();
fire_task->deactivate();
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auto table_id = getStorageID();
DatabaseCatalog::instance().removeViewDependency(select_table_id, table_id);
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}
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void StorageWindowView::checkTableCanBeDropped() const
{
auto table_id = getStorageID();
auto view_ids = DatabaseCatalog::instance().getDependentViews(table_id);
if (!view_ids.empty())
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{
StorageID view_id = *view_ids.begin();
throw Exception(ErrorCodes::TABLE_WAS_NOT_DROPPED, "Table has dependency {}", view_id);
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}
}
void StorageWindowView::drop()
{
/// Must be guaranteed at this point for database engine Atomic that has_inner_table == false,
/// because otherwise will be a deadlock.
dropInnerTableIfAny(false, getContext());
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}
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void StorageWindowView::dropInnerTableIfAny(bool sync, ContextPtr local_context)
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{
if (!std::exchange(has_inner_table, false))
return;
try
{
InterpreterDropQuery::executeDropQuery(
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ASTDropQuery::Kind::Drop, getContext(), local_context, inner_table_id, sync);
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if (has_inner_target_table)
InterpreterDropQuery::executeDropQuery(ASTDropQuery::Kind::Drop, getContext(), local_context, target_table_id, sync, /* ignore_sync_setting */ true);
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}
catch (...)
{
tryLogCurrentException(__PRETTY_FUNCTION__);
}
}
Block StorageWindowView::getInputHeader() const
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{
auto metadata = getSourceTable()->getInMemoryMetadataPtr();
return metadata->getSampleBlockNonMaterialized();
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}
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const Block & StorageWindowView::getOutputHeader() const
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{
std::lock_guard lock(sample_block_lock);
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if (!output_header)
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{
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output_header = InterpreterSelectQuery(select_query->clone(), getContext(), SelectQueryOptions(QueryProcessingStage::Complete))
.getSampleBlock();
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}
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return output_header;
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}
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StoragePtr StorageWindowView::getSourceTable() const
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{
return DatabaseCatalog::instance().getTable(select_table_id, getContext());
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}
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StoragePtr StorageWindowView::getInnerTable() const
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{
return DatabaseCatalog::instance().getTable(inner_table_id, getContext());
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}
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StoragePtr StorageWindowView::getTargetTable() const
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{
return DatabaseCatalog::instance().getTable(target_table_id, getContext());
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}
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void registerStorageWindowView(StorageFactory & factory)
{
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factory.registerStorage("WindowView", [](const StorageFactory::Arguments & args)
{
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if (!args.attach && !args.getLocalContext()->getSettingsRef().allow_experimental_window_view)
throw Exception(ErrorCodes::SUPPORT_IS_DISABLED,
"Experimental WINDOW VIEW feature "
"is not enabled (the setting 'allow_experimental_window_view')");
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return std::make_shared<StorageWindowView>(args.table_id, args.getLocalContext(), args.query, args.columns, args.attach);
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});
}
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}