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本篇内容介绍了“PostgreSQL查询优化对表达式预处理中连接Var溯源的过程是什么”的有关知识,在实际案例的操作过程中,不少人都会遇到这样的困境,接下来就让小编带领大家学习一下如何处理这些情况吧!希望大家仔细阅读,能够学有所成!
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处理逻辑在主函数subquery_planner中通过调用flatten_join_alias_vars函数实现,该函数位于src/backend/optimizer/util/var.c文件中。
连接Var溯源,意思是把连接产生的中间结果(中间结果也是Relation关系的一种)的投影替换为实际存在的关系的列(在PG中通过Var表示)。
如下面的SQL语句:
select a.*,b.grbh,b.je from t_dwxx a, lateral (select t1.dwbh,t1.grbh,t2.je from t_grxx t1 inner join t_jfxx t2 on t1.dwbh = a.dwbh and t1.grbh = t2.grbh) b;
b与a连接运算,查询树Query中的投影b.grbh和b.je这两列如需依赖关系b(子查询产生的中间结果),则需要把中间关系的投影列替换为实际的Relation的投影列,即t_grxx和t_jfxx的数据列.
PG源码中的注释:
/* * If the query has any join RTEs, replace join alias variables with * base-relation variables. We must do this first, since any expressions * we may extract from the joinaliasvars lists have not been preprocessed. * For example, if we did this after sublink processing, sublinks expanded * out from join aliases would not get processed. But we can skip this in * non-lateral RTE functions, VALUES lists, and TABLESAMPLE clauses, since * they can't contain any Vars of the current query level. */ if (root->hasJoinRTEs && !(kind == EXPRKIND_RTFUNC || kind == EXPRKIND_VALUES || kind == EXPRKIND_TABLESAMPLE || kind == EXPRKIND_TABLEFUNC)) expr = flatten_join_alias_vars(root, expr);
flatten_join_alias_vars
/* * flatten_join_alias_vars * Replace Vars that reference JOIN outputs with references to the original * relation variables instead. This allows quals involving such vars to be * pushed down. Whole-row Vars that reference JOIN relations are expanded * into RowExpr constructs that name the individual output Vars. This * is necessary since we will not scan the JOIN as a base relation, which * is the only way that the executor can directly handle whole-row Vars. * * This also adjusts relid sets found in some expression node types to * substitute the contained base rels for any join relid. * * If a JOIN contains sub-selects that have been flattened, its join alias * entries might now be arbitrary expressions, not just Vars. This affects * this function in one important way: we might find ourselves inserting * SubLink expressions into subqueries, and we must make sure that their * Query.hasSubLinks fields get set to true if so. If there are any * SubLinks in the join alias lists, the outer Query should already have * hasSubLinks = true, so this is only relevant to un-flattened subqueries. * * NOTE: this is used on not-yet-planned expressions. We do not expect it * to be applied directly to the whole Query, so if we see a Query to start * with, we do want to increment sublevels_up (this occurs for LATERAL * subqueries). */ Node * flatten_join_alias_vars(PlannerInfo *root, Node *node) { flatten_join_alias_vars_context context; context.root = root; context.sublevels_up = 0; /* flag whether join aliases could possibly contain SubLinks */ context.possible_sublink = root->parse->hasSubLinks; /* if hasSubLinks is already true, no need to work hard */ context.inserted_sublink = root->parse->hasSubLinks; //调用flatten_join_alias_vars_mutator处理Vars return flatten_join_alias_vars_mutator(node, &context); } static Node * flatten_join_alias_vars_mutator(Node *node, flatten_join_alias_vars_context *context) { if (node == NULL) return NULL; if (IsA(node, Var))//Var类型 { Var *var = (Var *) node; RangeTblEntry *rte; Node *newvar; /* No change unless Var belongs to a JOIN of the target level */ if (var->varlevelsup != context->sublevels_up) return node; /* no need to copy, really */ rte = rt_fetch(var->varno, context->root->parse->rtable); if (rte->rtekind != RTE_JOIN) return node; //在rte->rtekind == RTE_JOIN时才需要处理 if (var->varattno == InvalidAttrNumber) { /* Must expand whole-row reference */ RowExpr *rowexpr; List *fields = NIL; List *colnames = NIL; AttrNumber attnum; ListCell *lv; ListCell *ln; attnum = 0; Assert(list_length(rte->joinaliasvars) == list_length(rte->eref->colnames)); forboth(lv, rte->joinaliasvars, ln, rte->eref->colnames) { newvar = (Node *) lfirst(lv); attnum++; /* Ignore dropped columns */ if (newvar == NULL) continue; newvar = copyObject(newvar); /* * If we are expanding an alias carried down from an upper * query, must adjust its varlevelsup fields. */ if (context->sublevels_up != 0) IncrementVarSublevelsUp(newvar, context->sublevels_up, 0); /* Preserve original Var's location, if possible */ if (IsA(newvar, Var)) ((Var *) newvar)->location = var->location; /* Recurse in case join input is itself a join */ /* (also takes care of setting inserted_sublink if needed) */ newvar = flatten_join_alias_vars_mutator(newvar, context); fields = lappend(fields, newvar); /* We need the names of non-dropped columns, too */ colnames = lappend(colnames, copyObject((Node *) lfirst(ln))); } rowexpr = makeNode(RowExpr); rowexpr->args = fields; rowexpr->row_typeid = var->vartype; rowexpr->row_format = COERCE_IMPLICIT_CAST; rowexpr->colnames = colnames; rowexpr->location = var->location; return (Node *) rowexpr; } /* Expand join alias reference */ //扩展join alias Var Assert(var->varattno > 0); newvar = (Node *) list_nth(rte->joinaliasvars, var->varattno - 1); Assert(newvar != NULL); newvar = copyObject(newvar); /* * If we are expanding an alias carried down from an upper query, must * adjust its varlevelsup fields. */ if (context->sublevels_up != 0) IncrementVarSublevelsUp(newvar, context->sublevels_up, 0); /* Preserve original Var's location, if possible */ if (IsA(newvar, Var)) ((Var *) newvar)->location = var->location; /* Recurse in case join input is itself a join */ newvar = flatten_join_alias_vars_mutator(newvar, context); /* Detect if we are adding a sublink to query */ if (context->possible_sublink && !context->inserted_sublink) context->inserted_sublink = checkExprHasSubLink(newvar); return newvar; } if (IsA(node, PlaceHolderVar))//占位符 { /* Copy the PlaceHolderVar node with correct mutation of subnodes */ PlaceHolderVar *phv; phv = (PlaceHolderVar *) expression_tree_mutator(node, flatten_join_alias_vars_mutator, (void *) context); /* now fix PlaceHolderVar's relid sets */ if (phv->phlevelsup == context->sublevels_up) { phv->phrels = alias_relid_set(context->root, phv->phrels); } return (Node *) phv; } if (IsA(node, Query))//查询树 { /* Recurse into RTE subquery or not-yet-planned sublink subquery */ Query *newnode; bool save_inserted_sublink; context->sublevels_up++; save_inserted_sublink = context->inserted_sublink; context->inserted_sublink = ((Query *) node)->hasSubLinks; newnode = query_tree_mutator((Query *) node, flatten_join_alias_vars_mutator, (void *) context, QTW_IGNORE_JOINALIASES); newnode->hasSubLinks |= context->inserted_sublink; context->inserted_sublink = save_inserted_sublink; context->sublevels_up--; return (Node *) newnode; } /* Already-planned tree not supported */ Assert(!IsA(node, SubPlan)); /* Shouldn't need to handle these planner auxiliary nodes here */ Assert(!IsA(node, SpecialJoinInfo)); Assert(!IsA(node, PlaceHolderInfo)); Assert(!IsA(node, MinMaxAggInfo)); //其他表达式 return expression_tree_mutator(node, flatten_join_alias_vars_mutator, (void *) context); }
query_tree_mutator
/* * query_tree_mutator --- initiate modification of a Query's expressions * * This routine exists just to reduce the number of places that need to know * where all the expression subtrees of a Query are. Note it can be used * for starting a walk at top level of a Query regardless of whether the * mutator intends to descend into subqueries. It is also useful for * descending into subqueries within a mutator. * * Some callers want to suppress mutating of certain items in the Query, * typically because they need to process them specially, or don't actually * want to recurse into subqueries. This is supported by the flags argument, * which is the bitwise OR of flag values to suppress mutating of * indicated items. (More flag bits may be added as needed.) * * Normally the Query node itself is copied, but some callers want it to be * modified in-place; they must pass QTW_DONT_COPY_QUERY in flags. All * modified substructure is safely copied in any case. */ Query * query_tree_mutator(Query *query, Node *(*mutator) (), void *context, int flags)//遍历查询树 { Assert(query != NULL && IsA(query, Query)); if (!(flags & QTW_DONT_COPY_QUERY)) { Query *newquery; FLATCOPY(newquery, query, Query); query = newquery; } MUTATE(query->targetList, query->targetList, List *);//投影列 MUTATE(query->withCheckOptions, query->withCheckOptions, List *); MUTATE(query->onConflict, query->onConflict, OnConflictExpr *); MUTATE(query->returningList, query->returningList, List *); MUTATE(query->jointree, query->jointree, FromExpr *); MUTATE(query->setOperations, query->setOperations, Node *); MUTATE(query->havingQual, query->havingQual, Node *); MUTATE(query->limitOffset, query->limitOffset, Node *); MUTATE(query->limitCount, query->limitCount, Node *); if (!(flags & QTW_IGNORE_CTE_SUBQUERIES)) MUTATE(query->cteList, query->cteList, List *); else /* else copy CTE list as-is */ query->cteList = copyObject(query->cteList); query->rtable = range_table_mutator(query->rtable, mutator, context, flags);//RTE return query; }
range_table_mutator
/* * range_table_mutator is just the part of query_tree_mutator that processes * a query's rangetable. This is split out since it can be useful on * its own. */ List * range_table_mutator(List *rtable, Node *(*mutator) (), void *context, int flags) { List *newrt = NIL; ListCell *rt; foreach(rt, rtable)//遍历RTE { RangeTblEntry *rte = (RangeTblEntry *) lfirst(rt); RangeTblEntry *newrte; FLATCOPY(newrte, rte, RangeTblEntry); switch (rte->rtekind) { case RTE_RELATION: MUTATE(newrte->tablesample, rte->tablesample, TableSampleClause *); /* we don't bother to copy eref, aliases, etc; OK? */ break; case RTE_CTE: case RTE_NAMEDTUPLESTORE: /* nothing to do */ break; case RTE_SUBQUERY: if (!(flags & QTW_IGNORE_RT_SUBQUERIES)) { CHECKFLATCOPY(newrte->subquery, rte->subquery, Query); MUTATE(newrte->subquery, newrte->subquery, Query *);//遍历处理子查询 } else { /* else, copy RT subqueries as-is */ newrte->subquery = copyObject(rte->subquery); } break; case RTE_JOIN://连接,遍历处理joinaliasvars if (!(flags & QTW_IGNORE_JOINALIASES)) MUTATE(newrte->joinaliasvars, rte->joinaliasvars, List *); else { /* else, copy join aliases as-is */ newrte->joinaliasvars = copyObject(rte->joinaliasvars); } break; case RTE_FUNCTION: MUTATE(newrte->functions, rte->functions, List *); break; case RTE_TABLEFUNC: MUTATE(newrte->tablefunc, rte->tablefunc, TableFunc *); break; case RTE_VALUES: MUTATE(newrte->values_lists, rte->values_lists, List *); break; } MUTATE(newrte->securityQuals, rte->securityQuals, List *); newrt = lappend(newrt, newrte); } return newrt; }
在PG11中,没有进入"Expand join alias reference"的实现逻辑,猜测在上拉子查询的时候已作优化.
“PostgreSQL查询优化对表达式预处理中连接Var溯源的过程是什么”的内容就介绍到这里了,感谢大家的阅读。如果想了解更多行业相关的知识可以关注创新互联网站,小编将为大家输出更多高质量的实用文章!