Rowid Filtering Optimization

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The target use case for rowid filtering is as follows:

  • a table uses ref access on index IDX1
  • but it also has a fairly restrictive range predicate on another index IDX2.

In this case, it is advantageous to:

  • Do an index-only scan on index IDX2 and collect rowids of index records into a data structure that allows filtering (let's call it $FILTER).
  • When doing ref access on IDX1, check $FILTER before reading the full record.

Example

Consider a query

SELECT ...
FROM orders JOIN lineitem ON o_orderkey=l_orderkey
WHERE
  l_shipdate BETWEEN '1997-01-01' AND '1997-01-31' AND
  o_totalprice between 200000 and 230000;

Suppose the condition on l_shipdate is very restrictive, which means lineitem table should go first in the join order. Then, the optimizer can use o_orderkey=l_orderkey equality to do an index lookup to get the order the line item is from. On the other hand o_totalprice between ... can also be rather selective.

With filtering, the query plan would be:

*************************** 1. row ***************************
           id: 1
  select_type: SIMPLE
        table: lineitem
         type: range
possible_keys: PRIMARY,i_l_shipdate,i_l_orderkey,i_l_orderkey_quantity
          key: i_l_shipdate
      key_len: 4
          ref: NULL
         rows: 98
        Extra: Using index condition
*************************** 2. row ***************************
           id: 1
  select_type: SIMPLE
        table: orders
         type: eq_ref|filter
possible_keys: PRIMARY,i_o_totalprice
          key: PRIMARY|i_o_totalprice
      key_len: 4|9
          ref: dbt3_s001.lineitem.l_orderkey
         rows: 1 (5%)
        Extra: Using where; Using rowid filter

Note that table orders has "Using rowid filter". The type column has "|filter", the key column shows the index that is used to construct the filter. rows column shows the expected filter selectivity, it is 5%.

ANALYZE FORMAT=JSON output for table orders will show

    "table": {
      "table_name": "orders",
      "access_type": "eq_ref",
      "possible_keys": ["PRIMARY", "i_o_totalprice"],
      "key": "PRIMARY",
      "key_length": "4",
      "used_key_parts": ["o_orderkey"],
      "ref": ["dbt3_s001.lineitem.l_orderkey"],
      "rowid_filter": {
        "range": {
          "key": "i_o_totalprice",
          "used_key_parts": ["o_totalprice"]
        },
        "rows": 69,
        "selectivity_pct": 4.6,
        "r_rows": 71,
        "r_selectivity_pct": 10.417,
        "r_buffer_size": 53,
        "r_filling_time_ms": 0.0716
      }

Note the rowid_filter element. It has a range element inside it. selectivity_pct is the expected selectivity, accompanied by the r_selectivity_pct showing the actual observed selectivity.

Details

  • The optimizer makes a cost-based decision about when the filter should be used.
  • The filter data structure is currently an ordered array of rowids. (a Bloom filter would be better here and will probably be introduced in the future versions).
  • The optimization needs to be supported by the storage engine. At the moment, it is supported by InnoDB and MyISAM. It is not supported in partitioned tables.

Limitations

  • Rowid Filtering can't be used with a backward-ordered index scan. When the optimizer needs to execute an ORDER BY ... DESC query and decides to handle it with a backward-ordered index scan, it will disable Rowid Filtering.

Control

Rowid filtering can be switched on/off using rowid_filter flag in the optimizer_switch variable. By default, the optimization is enabled.

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