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  • PostgreSQL在何处处理 sql查询之五十二

    开始

        /*
         * Ready to do the primary planning.
         */
        final_rel = make_one_rel(root, joinlist); 

    展开:

    /*
     * make_one_rel
     *      Finds all possible access paths for executing a query, returning a
     *      single rel that represents the join of all base rels in the query.
     */
    RelOptInfo *
    make_one_rel(PlannerInfo *root, List *joinlist)
    {
        RelOptInfo *rel;
        Index        rti;
    
        /*
         * Construct the all_baserels Relids set.
         */
        root->all_baserels = NULL;
        for (rti = 1; rti < root->simple_rel_array_size; rti++)
        {
            RelOptInfo *brel = root->simple_rel_array[rti];
    
            /* there may be empty slots corresponding to non-baserel RTEs */
            if (brel == NULL)
                continue;
    
            Assert(brel->relid == rti);        /* sanity check on array */
    
            /* ignore RTEs that are "other rels" */
            if (brel->reloptkind != RELOPT_BASEREL)
                continue;
    
            root->all_baserels = bms_add_member(root->all_baserels, brel->relid);
        }
    
        /*
         * Generate access paths for the base rels.
         */
        set_base_rel_sizes(root);
        set_base_rel_pathlists(root);
    
        /*
         * Generate access paths for the entire join tree.
         */
        rel = make_rel_from_joinlist(root, joinlist);
    
        /*
         * The result should join all and only the query's base rels.
         */
        Assert(bms_equal(rel->relids, root->all_baserels));
    
        return rel;
    }

    其中, 

    root->all_baserels = bms_add_member(root->all_baserels, brel->relid);

    这个展开后可以看到,因为 root->all_baserels 是NULL,所以什么也没执行。

    /*
     * bms_add_member - add a specified member to set
     *
     * Input set is modified or recycled!
     */
    Bitmapset *
    bms_add_member(Bitmapset *a, int x)
    {
        int            wordnum,
                    bitnum;
    
        if (x < 0)
            elog(ERROR, "negative bitmapset member not allowed");
    
        if (a == NULL)
            return bms_make_singleton(x);
    
        wordnum = WORDNUM(x);
        bitnum = BITNUM(x);if (wordnum >= a->nwords)
        {
            /* Slow path: make a larger set and union the input set into it */
            Bitmapset  *result;
            int            nwords;
            int            i;
    
            result = bms_make_singleton(x);
            nwords = a->nwords;
            for (i = 0; i < nwords; i++)
                result->words[i] |= a->words[i];
            pfree(a);
            return result;
        }
        /* Fast path: x fits in existing set */
        a->words[wordnum] |= ((bitmapword) 1 << bitnum);
        return a;
    }

    接着分析下一个:

    set_base_rel_sizes(root);
    /*
     * set_base_rel_sizes
     *      Set the size estimates (rows and widths) for each base-relation entry.
     *
     * We do this in a separate pass over the base rels so that rowcount
     * estimates are available for parameterized path generation.
     */
    static void
    set_base_rel_sizes(PlannerInfo *root)
    {
        Index        rti;
    
        for (rti = 1; rti < root->simple_rel_array_size; rti++)
        {
            RelOptInfo *rel = root->simple_rel_array[rti];
    
            /* there may be empty slots corresponding to non-baserel RTEs */
            if (rel == NULL)
                continue;
    
            Assert(rel->relid == rti);        /* sanity check on array */
    
            /* ignore RTEs that are "other rels" */
            if (rel->reloptkind != RELOPT_BASEREL)
                continue;
    
            set_rel_size(root, rel, rti, root->simple_rte_array[rti]);
        }
    }

    这是成本评估的非常重要的依据。

    再展开  set_rel_size 函数:

    /*
     * set_rel_size
     *      Set size estimates for a base relation
     */
    static void
    set_rel_size(PlannerInfo *root, RelOptInfo *rel,
                 Index rti, RangeTblEntry *rte)
    {
        if (rel->reloptkind == RELOPT_BASEREL &&
            relation_excluded_by_constraints(root, rel, rte))
        {
            /*
             * We proved we don't need to scan the rel via constraint exclusion,
             * so set up a single dummy path for it.  Here we only check this for
             * regular baserels; if it's an otherrel, CE was already checked in
             * set_append_rel_pathlist().
             *
             * In this case, we go ahead and set up the relation's path right away
             * instead of leaving it for set_rel_pathlist to do.  This is because
             * we don't have a convention for marking a rel as dummy except by
             * assigning a dummy path to it.
             */
            set_dummy_rel_pathlist(rel);
        }
        else if (rte->inh)
        {
            /* It's an "append relation", process accordingly */
            set_append_rel_size(root, rel, rti, rte);
        }
        else
        {
            switch (rel->rtekind)
            {
                case RTE_RELATION:
                    if (rte->relkind == RELKIND_FOREIGN_TABLE)
                    {
                        /* Foreign table */
                        set_foreign_size(root, rel, rte);
                    }
                    else
                    {
                        /* Plain relation */
                        set_plain_rel_size(root, rel, rte);
                    }
                    break;
                case RTE_SUBQUERY:
    
                    /*
                     * Subqueries don't support parameterized paths, so just go
                     * ahead and build their paths immediately.
                     */
                    set_subquery_pathlist(root, rel, rti, rte);
                    break;
                case RTE_FUNCTION:
                    set_function_size_estimates(root, rel);
                    break;
                case RTE_VALUES:
                    set_values_size_estimates(root, rel);
                    break;
                case RTE_CTE:
    
                    /*
                     * CTEs don't support parameterized paths, so just go ahead
                     * and build their paths immediately.
                     */
                    if (rte->self_reference)
                        set_worktable_pathlist(root, rel, rte);
                    else
                        set_cte_pathlist(root, rel, rte);
                    break;
                default:
                    elog(ERROR, "unexpected rtekind: %d", (int) rel->rtekind);
                    break;
            }
        }
    }

    因为我的是简单查询,所以会走到:

                        /* Plain relation */
                        set_plain_rel_size(root, rel, rte);

    展开  set_plain_rel_size :

    /*
     * set_plain_rel_size
     *      Set size estimates for a plain relation (no subquery, no inheritance)
     */
    static void
    set_plain_rel_size(PlannerInfo *root, RelOptInfo *rel, RangeTblEntry *rte)
    {
        /*
         * Test any partial indexes of rel for applicability.  We must do this
         * first since partial unique indexes can affect size estimates.
         */
        check_partial_indexes(root, rel);
    
        /* Mark rel with estimated output rows, width, etc */
        set_baserel_size_estimates(root, rel);
    
        /*
         * Check to see if we can extract any restriction conditions from join
         * quals that are OR-of-AND structures.  If so, add them to the rel's
         * restriction list, and redo the above steps.
         */
        if (create_or_index_quals(root, rel))
        {
            check_partial_indexes(root, rel);
            set_baserel_size_estimates(root, rel);
        }
    }

    再对 set_baserel_size_estimates 展开一层:

    /*
     * set_baserel_size_estimates
     *        Set the size estimates for the given base relation.
     *
     * The rel's targetlist and restrictinfo list must have been constructed
     * already, and rel->tuples must be set.
     *
     * We set the following fields of the rel node:
     *    rows: the estimated number of output tuples (after applying
     *          restriction clauses).
     *     the estimated average output tuple width in bytes.
     *    baserestrictcost: estimated cost of evaluating baserestrictinfo clauses.
     */
    void
    set_baserel_size_estimates(PlannerInfo *root, RelOptInfo *rel)
    {
        double        nrows;
    
        /* Should only be applied to base relations */
        Assert(rel->relid > 0);
    
        nrows = rel->tuples *
            clauselist_selectivity(root,
                                   rel->baserestrictinfo,
                                   0,
                                   JOIN_INNER,
                                   NULL);
    
        rel->rows = clamp_row_est(nrows);
    
        cost_qual_eval(&rel->baserestrictcost, rel->baserestrictinfo, root);
    
        set_rel_width(root, rel);
    }

    rel->tuples 值是如何算得?1条记录第表,tuples 是2400, 4条的却是 2140。

    得仔细研究。

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  • 原文地址:https://www.cnblogs.com/gaojian/p/3119002.html
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