#pragma once #include #include namespace DB { /** * to_stage * - the stage to which the query is to be executed. By default - till to the end. * You can perform till the intermediate aggregation state, which are combined from different servers for distributed query processing. * * subquery_depth * - to control the limit on the depth of nesting of subqueries. For subqueries, a value that is incremented by one is passed; * for INSERT SELECT, a value 1 is passed instead of 0. * * only_analyze * - the object was created only for query analysis. * * is_subquery * - there could be some specific for subqueries. Ex. there's no need to pass duplicated columns in results, cause of indirect results. * * is_internal * - the object was created only for internal queries. */ struct SelectQueryOptions { QueryProcessingStage::Enum to_stage; size_t subquery_depth; bool only_analyze = false; bool modify_inplace = false; bool remove_duplicates = false; bool ignore_quota = false; bool ignore_limits = false; /// This flag is needed to analyze query ignoring table projections. /// It is needed because we build another one InterpreterSelectQuery while analyzing projections. /// It helps to avoid infinite recursion. bool ignore_projections = false; /// This flag is also used for projection analysis. /// It is needed because lazy normal projections require special planning in FetchColumns stage, such as adding WHERE transform. /// It is also used to avoid adding aggregating step when aggregate projection is chosen. bool is_projection_query = false; bool ignore_alias = false; bool is_internal = false; bool is_subquery = false; // non-subquery can also have subquery_depth > 0, e.g. insert select bool with_all_cols = false; /// asterisk include materialized and aliased columns /// These two fields are used to evaluate shardNum() and shardCount() function when /// prefer_localhost_replica == 1 and local instance is selected. They are needed because local /// instance might have multiple shards and scalars can only hold one value. std::optional shard_num; std::optional shard_count; SelectQueryOptions( QueryProcessingStage::Enum stage = QueryProcessingStage::Complete, size_t depth = 0, bool is_subquery_ = false) : to_stage(stage), subquery_depth(depth), is_subquery(is_subquery_) {} SelectQueryOptions copy() const { return *this; } SelectQueryOptions subquery() const { SelectQueryOptions out = *this; out.to_stage = QueryProcessingStage::Complete; ++out.subquery_depth; out.is_subquery = true; return out; } SelectQueryOptions & analyze(bool dry_run = true) { only_analyze = dry_run; return *this; } SelectQueryOptions & modify(bool value = true) { modify_inplace = value; return *this; } SelectQueryOptions & noModify() { return modify(false); } SelectQueryOptions & removeDuplicates(bool value = true) { remove_duplicates = value; return *this; } SelectQueryOptions & noSubquery() { subquery_depth = 0; return *this; } SelectQueryOptions & ignoreLimits(bool value = true) { ignore_limits = value; return *this; } SelectQueryOptions & ignoreProjections(bool value = true) { ignore_projections = value; return *this; } SelectQueryOptions & projectionQuery(bool value = true) { is_projection_query = value; return *this; } SelectQueryOptions & ignoreAlias(bool value = true) { ignore_alias = value; return *this; } SelectQueryOptions & setInternal(bool value = false) { is_internal = value; return *this; } SelectQueryOptions & setWithAllColumns(bool value = true) { with_all_cols = value; return *this; } SelectQueryOptions & setShardInfo(UInt32 shard_num_, UInt32 shard_count_) { shard_num = shard_num_; shard_count = shard_count_; return *this; } }; }