#include "PushingToViewsBlockOutputStream.h" #include namespace DB { PushingToViewsBlockOutputStream::PushingToViewsBlockOutputStream( String database, String table, StoragePtr storage, const Context & context_, const ASTPtr & query_ptr_, bool no_destination) : context(context_), query_ptr(query_ptr_) { /** TODO This is a very important line. At any insertion into the table one of streams should own lock. * Although now any insertion into the table is done via PushingToViewsBlockOutputStream, * but it's clear that here is not the best place for this functionality. */ addTableLock(storage->lockStructure(true, __PRETTY_FUNCTION__)); if (!table.empty()) { Dependencies dependencies = context.getDependencies(database, table); /// We need special context for materialized views insertions if (!dependencies.empty()) { views_context = std::make_unique(context); // Do not deduplicate insertions into MV if the main insertion is Ok views_context->getSettingsRef().insert_deduplicate = false; } for (const auto & database_table : dependencies) { auto dependent_table = context.getTable(database_table.first, database_table.second); auto & materialized_view = dynamic_cast(*dependent_table); auto query = materialized_view.getInnerQuery(); auto out = std::make_shared( database_table.first, database_table.second, dependent_table, *views_context, ASTPtr()); views.emplace_back(ViewInfo{std::move(query), database_table.first, database_table.second, std::move(out)}); } } /* Do not push to destination table if the flag is set */ if (!no_destination) { output = storage->write(query_ptr, context.getSettingsRef()); replicated_output = dynamic_cast(output.get()); } } void PushingToViewsBlockOutputStream::write(const Block & block) { if (output) output->write(block); /// Don't process materialized views if this block is duplicate if (replicated_output && replicated_output->lastBlockIsDuplicate()) return; /// Insert data into materialized views only after successful insert into main table for (auto & view : views) { try { BlockInputStreamPtr from = std::make_shared(block); InterpreterSelectQuery select(view.query, *views_context, QueryProcessingStage::Complete, 0, from); BlockInputStreamPtr data = std::make_shared(select.execute().in); copyData(*data, *view.out); } catch (Exception & ex) { ex.addMessage("while pushing to view " + view.database + "." + view.table); throw; } } } }