MySQL 8.0.40
Source Code Documentation
index_skip_scan_plan.h
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23
24#ifndef SQL_RANGE_OPTIMIZER_INDEX_SKIP_SCAN_PLAN_H_
25#define SQL_RANGE_OPTIMIZER_INDEX_SKIP_SCAN_PLAN_H_
26
27#include <sys/types.h>
28
29#include "my_base.h"
31
32class KEY;
33class KEY_PART_INFO;
35class RANGE_OPT_PARAM;
36class SEL_ARG;
37class SEL_ROOT;
38class SEL_TREE;
39struct MEM_ROOT;
40
41/*
42 This is an array of array of equality constants with length
43 eq_prefix_key_parts.
44
45 For example, an equality predicate like "a IN (1, 2) AND b IN (2, 3, 4)",
46 eq_prefixes will contain:
47
48 [
49 { eq_key_prefixes = array[1, 2], cur_eq_prefix = ... },
50 { eq_key_prefixes = array[2, 3, 4], cur_eq_prefix = ... }
51 ]
52 */
53struct EQPrefix {
55
56 /*
57 During skip scan, we will have to iterate through all possible
58 equality prefixes. This is the product of all the elements in
59 eq_prefix_elements. In the above example, there are 2 x 3 = 6 possible
60 equality prefixes.
61
62 To track which prefix we are on, we use cur_eq_prefix. For example,
63 if both EQPrefixes have the value 1 here, it indicates that the current
64 equality prefix is (2, 3).
65 */
66 unsigned cur_eq_prefix;
67};
68
69/**
70 Logically a part of AccessPath::index_skip_scan(), but is too large,
71 so split out into its own struct.
72 */
74 KEY *index_info; ///< The index chosen for data access
75 uint eq_prefix_len; ///< Length of the equality prefix
76 uint eq_prefix_key_parts; ///< Number of key parts in the equality prefix
77 EQPrefix *eq_prefixes; ///< Array of equality constants (IN list)
78 KEY_PART_INFO *range_key_part; ///< The key part corresponding to the range
79 ///< condition
86
87 // The sub-tree corresponding to the range condition
88 // (on key part C - for more details see description of get_best_skip_scan()).
89 //
90 // Does not necessarily live as long as the AccessPath, so used for tracing
91 // only.
93
94 SEL_ROOT *index_range_tree; ///< The sub-tree corresponding to index_info
95 bool has_aggregate_function; ///< TRUE if there are aggregate functions.
96};
97
99 enum_order order_direction,
100 bool skip_records_in_range,
101 bool force_skip_scan);
102
104 const RANGE_OPT_PARAM *param,
105 Opt_trace_object *trace_object);
106
107#ifndef NDEBUG
108void dbug_dump_index_skip_scan(int indent, bool verbose,
109 const AccessPath *path);
110#endif
111
112#endif // SQL_RANGE_OPTIMIZER_INDEX_SKIP_SCAN_PLAN_H_
A wrapper class which provides array bounds checking.
Definition: sql_array.h:47
Definition: key.h:57
Definition: key.h:113
A JSON object (unordered set of key/value pairs).
Definition: opt_trace.h:799
Definition: range_opt_param.h:29
Definition: tree.h:465
A graph of (possible multiple) key ranges, represented as a red-black binary tree.
Definition: tree.h:68
Definition: tree.h:871
For each client connection we create a separate thread with THD serving as a thread/connection descri...
Definition: sql_lexer_thd.h:34
void trace_basic_info_index_skip_scan(THD *thd, const AccessPath *path, const RANGE_OPT_PARAM *param, Opt_trace_object *trace_object)
Definition: index_skip_scan_plan.cc:70
void dbug_dump_index_skip_scan(int indent, bool verbose, const AccessPath *path)
Definition: index_skip_scan_plan.cc:657
AccessPath * get_best_skip_scan(THD *thd, RANGE_OPT_PARAM *param, SEL_TREE *tree, enum_order order_direction, bool skip_records_in_range, bool force_skip_scan)
Test if skip scan is applicable and if so, construct a new AccessPath.
Definition: index_skip_scan_plan.cc:166
enum_order
Definition: key_spec.h:65
This file includes constants used by all storage engines.
unsigned char uchar
Definition: my_inttypes.h:52
static uint verbose
Definition: mysqlcheck.cc:65
static char * path
Definition: mysqldump.cc:137
Access paths are a query planning structure that correspond 1:1 to iterators, in that an access path ...
Definition: access_path.h:193
Definition: index_skip_scan_plan.h:53
Bounds_checked_array< uchar * > eq_key_prefixes
Definition: index_skip_scan_plan.h:54
unsigned cur_eq_prefix
Definition: index_skip_scan_plan.h:66
Logically a part of AccessPath::index_skip_scan(), but is too large, so split out into its own struct...
Definition: index_skip_scan_plan.h:73
uint eq_prefix_len
Length of the equality prefix.
Definition: index_skip_scan_plan.h:75
uchar * min_range_key
Definition: index_skip_scan_plan.h:80
uint range_cond_flag
Definition: index_skip_scan_plan.h:84
KEY * index_info
The index chosen for data access.
Definition: index_skip_scan_plan.h:74
bool has_aggregate_function
TRUE if there are aggregate functions.
Definition: index_skip_scan_plan.h:95
uint range_key_len
Definition: index_skip_scan_plan.h:85
uchar * max_search_key
Definition: index_skip_scan_plan.h:83
uchar * max_range_key
Definition: index_skip_scan_plan.h:81
SEL_ROOT * index_range_tree
The sub-tree corresponding to index_info.
Definition: index_skip_scan_plan.h:94
uint eq_prefix_key_parts
Number of key parts in the equality prefix.
Definition: index_skip_scan_plan.h:76
uchar * min_search_key
Definition: index_skip_scan_plan.h:82
KEY_PART_INFO * range_key_part
The key part corresponding to the range condition.
Definition: index_skip_scan_plan.h:78
EQPrefix * eq_prefixes
Array of equality constants (IN list)
Definition: index_skip_scan_plan.h:77
const SEL_ARG * range_part_tracing_only
Definition: index_skip_scan_plan.h:92
The MEM_ROOT is a simple arena, where allocations are carved out of larger blocks.
Definition: my_alloc.h:83
unsigned int uint
Definition: uca9-dump.cc:75