MySQL 8.0.39
Source Code Documentation
rowid_ordered_retrieval_plan.cc File Reference
#include "sql/range_optimizer/rowid_ordered_retrieval_plan.h"
#include <assert.h>
#include <stdio.h>
#include <string.h>
#include <algorithm>
#include <utility>
#include "m_ctype.h"
#include "m_string.h"
#include "my_alloc.h"
#include "my_dbug.h"
#include "my_inttypes.h"
#include "sql/key.h"
#include "sql/key_spec.h"
#include "sql/mem_root_array.h"
#include "sql/opt_costmodel.h"
#include "sql/opt_hints.h"
#include "sql/opt_trace.h"
#include "sql/range_optimizer/index_range_scan.h"
#include "sql/range_optimizer/index_range_scan_plan.h"
#include "sql/range_optimizer/internal.h"
#include "sql/range_optimizer/path_helpers.h"
#include "sql/range_optimizer/range_opt_param.h"
#include "sql/range_optimizer/rowid_ordered_retrieval.h"
#include "sql/range_optimizer/tree.h"
#include "sql/sql_bitmap.h"
#include "sql/sql_class.h"
#include "sql/sql_const.h"
#include "sql/sql_lex.h"
#include "sql/sql_optimizer.h"
#include "sql/table.h"
#include "sql_string.h"

Classes

struct  ROR_INTERSECT_INFO
 

Functions

static void print_ror_scans_arr (TABLE *table, const char *msg, ROR_SCAN_INFO **start, ROR_SCAN_INFO **end)
 
void trace_basic_info_rowid_intersection (THD *thd, const AccessPath *path, const RANGE_OPT_PARAM *param, Opt_trace_object *trace_object)
 
void trace_basic_info_rowid_union (THD *thd, const AccessPath *path, const RANGE_OPT_PARAM *param, Opt_trace_object *trace_object)
 
static ROR_SCAN_INFOmake_ror_scan (const RANGE_OPT_PARAM *param, int idx, SEL_ROOT *sel_root, const MY_BITMAP *needed_fields)
 
static bool is_better_intersect_match (const ROR_SCAN_INFO *scan1, const ROR_SCAN_INFO *scan2)
 Compare two ROR_SCAN_INFO* by. More...
 
static void find_intersect_order (ROR_SCAN_INFO **start, ROR_SCAN_INFO **end, const RANGE_OPT_PARAM *param, const MY_BITMAP *needed_fields)
 Sort indexes in an order that is likely to be a good index merge intersection order. More...
 
static ROR_INTERSECT_INFOror_intersect_init (const RANGE_OPT_PARAM *param)
 
static void ror_intersect_cpy (ROR_INTERSECT_INFO *dst, const ROR_INTERSECT_INFO *src)
 
static double ror_scan_selectivity (const ROR_INTERSECT_INFO *info, const ROR_SCAN_INFO *scan)
 
static bool ror_intersect_add (ROR_INTERSECT_INFO *info, const MY_BITMAP *needed_fields, ROR_SCAN_INFO *ror_scan, bool is_cpk_scan, Opt_trace_object *trace_costs, bool ignore_cost)
 
static AccessPathMakeAccessPath (ROR_SCAN_INFO *scan, TABLE *table, KEY_PART *used_key_part, bool reuse_handler, MEM_ROOT *mem_root)
 
AccessPathget_best_ror_intersect (THD *thd, const RANGE_OPT_PARAM *param, TABLE *table, bool index_merge_intersect_allowed, SEL_TREE *tree, const MY_BITMAP *needed_fields, double cost_est, bool force_index_merge_result, bool reuse_handler)
 
static int find_max_used_key_length (const AccessPath *scan)
 
void add_keys_and_lengths_rowid_intersection (const AccessPath *path, String *key_names, String *used_lengths)
 
void add_keys_and_lengths_rowid_union (const AccessPath *path, String *key_names, String *used_lengths)
 
void dbug_dump_rowid_intersection (int indent, bool verbose, const Mem_root_array< AccessPath * > &children)
 
void dbug_dump_rowid_union (int indent, bool verbose, const Mem_root_array< AccessPath * > &children)
 

Function Documentation

◆ add_keys_and_lengths_rowid_intersection()

void add_keys_and_lengths_rowid_intersection ( const AccessPath path,
String key_names,
String used_lengths 
)

◆ add_keys_and_lengths_rowid_union()

void add_keys_and_lengths_rowid_union ( const AccessPath path,
String key_names,
String used_lengths 
)

◆ dbug_dump_rowid_intersection()

void dbug_dump_rowid_intersection ( int  indent,
bool  verbose,
const Mem_root_array< AccessPath * > &  children 
)

◆ dbug_dump_rowid_union()

void dbug_dump_rowid_union ( int  indent,
bool  verbose,
const Mem_root_array< AccessPath * > &  children 
)

◆ find_intersect_order()

static void find_intersect_order ( ROR_SCAN_INFO **  start,
ROR_SCAN_INFO **  end,
const RANGE_OPT_PARAM param,
const MY_BITMAP needed_fields 
)
static

Sort indexes in an order that is likely to be a good index merge intersection order.

After running this function, [start, ..., end-1] is ordered according to this strategy:

1) Minimize the number of indexes that must be used in the intersection. I.e., the index covering most fields not already covered by other indexes earlier in the sort order is picked first. 2) When multiple indexes cover equally many uncovered fields, the index with lowest E(Number of rows) is chosen.

Note that all permutations of index ordering are not tested, so this function may not find the optimal order.

Parameters
[in,out]startPointer to the start of indexes that may be used in index merge intersection
endPointer past the last index that may be used.
paramParameter from test_quick_select function.
needed_fieldsBitmask of fields needed by the query.

◆ find_max_used_key_length()

static int find_max_used_key_length ( const AccessPath scan)
static

◆ get_best_ror_intersect()

AccessPath * get_best_ror_intersect ( THD thd,
const RANGE_OPT_PARAM param,
TABLE table,
bool  index_merge_intersect_allowed,
SEL_TREE tree,
const MY_BITMAP needed_fields,
double  cost_est,
bool  force_index_merge_result,
bool  reuse_handler 
)

◆ is_better_intersect_match()

static bool is_better_intersect_match ( const ROR_SCAN_INFO scan1,
const ROR_SCAN_INFO scan2 
)
static

Compare two ROR_SCAN_INFO* by.

  1. Number of fields in this index that are not already covered by other indexes earlier in the intersect ordering: descending
  2. E(Number of records): ascending
Parameters
scan1first ror scan to compare
scan2second ror scan to compare
Returns
true if scan1 > scan2, false otherwise

◆ make_ror_scan()

static ROR_SCAN_INFO * make_ror_scan ( const RANGE_OPT_PARAM param,
int  idx,
SEL_ROOT sel_root,
const MY_BITMAP needed_fields 
)
static

◆ MakeAccessPath()

static AccessPath * MakeAccessPath ( ROR_SCAN_INFO scan,
TABLE table,
KEY_PART used_key_part,
bool  reuse_handler,
MEM_ROOT mem_root 
)
static

◆ print_ror_scans_arr()

static void print_ror_scans_arr ( TABLE table,
const char *  msg,
ROR_SCAN_INFO **  start,
ROR_SCAN_INFO **  end 
)
static

◆ ror_intersect_add()

static bool ror_intersect_add ( ROR_INTERSECT_INFO info,
const MY_BITMAP needed_fields,
ROR_SCAN_INFO ror_scan,
bool  is_cpk_scan,
Opt_trace_object trace_costs,
bool  ignore_cost 
)
static

◆ ror_intersect_cpy()

static void ror_intersect_cpy ( ROR_INTERSECT_INFO dst,
const ROR_INTERSECT_INFO src 
)
static

◆ ror_intersect_init()

static ROR_INTERSECT_INFO * ror_intersect_init ( const RANGE_OPT_PARAM param)
static

◆ ror_scan_selectivity()

static double ror_scan_selectivity ( const ROR_INTERSECT_INFO info,
const ROR_SCAN_INFO scan 
)
static

key values tuple, used to store both min_range.key and max_range.key. This function is only called for equality ranges; open ranges (e.g. "min_value < X < max_value") cannot be used for rowid ordered retrieval, so in this function we know that min_range.key == max_range.key

◆ trace_basic_info_rowid_intersection()

void trace_basic_info_rowid_intersection ( THD thd,
const AccessPath path,
const RANGE_OPT_PARAM param,
Opt_trace_object trace_object 
)

◆ trace_basic_info_rowid_union()

void trace_basic_info_rowid_union ( THD thd,
const AccessPath path,
const RANGE_OPT_PARAM param,
Opt_trace_object trace_object 
)