MySQL 8.0.40
Source Code Documentation
build_interesting_orders.h
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23
24#ifndef SQL_JOIN_OPTIMIZER_BUILD_INTERESTING_ORDERS_H_
25#define SQL_JOIN_OPTIMIZER_BUILD_INTERESTING_ORDERS_H_
26
29
30#include <string>
31
32class Item_func_match;
33template <class T>
34class Mem_root_array;
35class Query_block;
36class THD;
37struct JoinHypergraph;
38struct ORDER;
39struct TABLE;
40
41// An ordering that we could be doing sort-ahead by; typically either an
42// interesting ordering or an ordering homogenized from one. It also includes
43// orderings that are used for sort-for-grouping, i.e. for GROUP BY,
44// PARTITION BY or DISTINCT.
46 // Pointer to an ordering in LogicalOrderings.
48
49 // Which tables must be present in the join before one can apply
50 // this sort (usually because the elements we sort by are contained
51 // in these tables).
52 //
53 // The presence of RAND_TABLE_BIT means that the ordering contains
54 // at least one nondeterminstic item; we never allow pushing such
55 // orderings into the join (implicitly: sortahead during joins check
56 // required_nodes, and never include RAND_TABLE_BIT). This makes sure that we
57 // cannot push e.g. ORDER BY rand() into the left side of a join, which would
58 // make rows shuffled on that table only, which isn't what the user would
59 // expect. We also have special logic to disallow satisfying nondeterministic
60 // groupings/orderings others (both in the logic for group covers, and in NFSM
61 // construction), so that
62 //
63 // GROUP BY a ORDER BY a, func()
64 //
65 // cannot be done by evaluating func() too early, but we do allow exact
66 // matches, so that e.g. GROUP BY func() ORDER BY func() can be done as only
67 // one sort (which isn't too unreasonable). This may be a bit conservative
68 // or it may be a bit aggressive, depending on who you ask.
70
71 // Whether aggregates must be computed before one can apply this sort
72 // (because it includes at least one aggregate).
74
75 /// True if this ordering can be used for sort-ahead only, and not for sorting
76 /// after the joining and aggregation are done (that is, sorting for DISTINCT,
77 /// WINDOW or ORDER BY). This flag is set for orderings on expressions that
78 /// have not been added to join->fields, and their availability cannot be
79 /// relied on at the end of the query execution, as they are not included in
80 /// the temporary table if there is a materialization step. If an ordering
81 /// marked as sort-ahead-only is actually useful after aggregation, there is
82 /// usually an equivalent ordering using expressions that do exist in
83 /// join->fields, and that can be used instead.
85
86 // The ordering expressed in a form that filesort can use.
88};
89
90// An index that we can use in the query, either for index lookup (ref access)
91// or for scanning along to get an interesting ordering.
97};
98
99// A full-text index that we can use in the query, either for index lookup or
100// for scanning along to get an interesting order.
104};
105
106/**
107 Build all structures we need for keeping track of interesting orders.
108 We collect the actual relevant orderings (e.g. from ORDER BY) and any
109 functional dependencies we can find, then ask LogicalOrderings to create
110 its state machine (as defined in interesting_orders.h). The result is
111 said state machine, a list of potential sort-ahead orderings,
112 and a list of what indexes we can use to scan each table (including
113 what orderings they yield, if they are interesting).
114 */
116 THD *thd, JoinHypergraph *graph, Query_block *query_block,
117 LogicalOrderings *orderings,
118 Mem_root_array<SortAheadOrdering> *sort_ahead_orderings,
119 int *order_by_ordering_idx, int *group_by_ordering_idx,
120 int *distinct_ordering_idx, Mem_root_array<ActiveIndexInfo> *active_indexes,
121 Mem_root_array<FullTextIndexInfo> *fulltext_searches, std::string *trace);
122
123// Build an ORDER * that we can give to Filesort. It is only suitable for
124// sort-ahead, since it assumes no temporary tables have been inserted.
125// It can however be used after temporary tables if
126// ReplaceOrderItemsWithTempTableFields() is called on it, and
127// FinalizePlanForQueryBlock() takes care of this for us.
128ORDER *BuildSortAheadOrdering(THD *thd, const LogicalOrderings *orderings,
129 Ordering ordering);
130
131/**
132 Creates a reduced ordering for the ordering or grouping specified by
133 "ordering_idx". It is assumed that the ordering happens after all joins and
134 filters, so that all functional dependencies are active. All parts of the
135 ordering that are made redundant by functional dependencies, are removed.
136
137 The returned ordering may be empty if all elements are redundant. This happens
138 if all elements are constants, or have predicates that ensure they are
139 constant.
140 */
141Ordering ReduceFinalOrdering(THD *thd, const LogicalOrderings &orderings,
142 int ordering_idx);
143
144#endif // SQL_JOIN_OPTIMIZER_BUILD_INTERESTING_ORDERS_H_
ORDER * BuildSortAheadOrdering(THD *thd, const LogicalOrderings *orderings, Ordering ordering)
Definition: build_interesting_orders.cc:286
void BuildInterestingOrders(THD *thd, JoinHypergraph *graph, Query_block *query_block, LogicalOrderings *orderings, Mem_root_array< SortAheadOrdering > *sort_ahead_orderings, int *order_by_ordering_idx, int *group_by_ordering_idx, int *distinct_ordering_idx, Mem_root_array< ActiveIndexInfo > *active_indexes, Mem_root_array< FullTextIndexInfo > *fulltext_searches, std::string *trace)
Build all structures we need for keeping track of interesting orders.
Ordering ReduceFinalOrdering(THD *thd, const LogicalOrderings &orderings, int ordering_idx)
Creates a reduced ordering for the ordering or grouping specified by "ordering_idx".
Definition: build_interesting_orders.cc:384
Definition: item_func.h:3396
Definition: interesting_orders.h:314
int StateIndex
Definition: interesting_orders.h:427
A typesafe replacement for DYNAMIC_ARRAY.
Definition: mem_root_array.h:426
Represents a (potentially interesting) ordering, rollup or (non-rollup) grouping.
Definition: interesting_orders.h:159
This class represents a query block, aka a query specification, which is a query consisting of a SELE...
Definition: sql_lex.h:1156
For each client connection we create a separate thread with THD serving as a thread/connection descri...
Definition: sql_lexer_thd.h:34
Tracks which tuple streams follow which orders, and in particular whether they follow interesting ord...
uint64_t NodeMap
Since our graphs can never have more than 61 tables, node sets and edge lists are implemented using 6...
Definition: node_map.h:40
Definition: build_interesting_orders.h:92
LogicalOrderings::StateIndex reverse_order
Definition: build_interesting_orders.h:95
int key_idx
Definition: build_interesting_orders.h:94
LogicalOrderings::StateIndex reverse_order_without_extended_key_parts
Definition: build_interesting_orders.h:96
LogicalOrderings::StateIndex forward_order
Definition: build_interesting_orders.h:95
TABLE * table
Definition: build_interesting_orders.h:93
Definition: build_interesting_orders.h:101
LogicalOrderings::StateIndex order
Definition: build_interesting_orders.h:103
Item_func_match * match
Definition: build_interesting_orders.h:102
A struct containing a join hypergraph of a single query block, encapsulating the constraints given by...
Definition: make_join_hypergraph.h:77
Definition: table.h:282
Definition: build_interesting_orders.h:45
ORDER * order
Definition: build_interesting_orders.h:87
bool aggregates_required
Definition: build_interesting_orders.h:73
bool sort_ahead_only
True if this ordering can be used for sort-ahead only, and not for sorting after the joining and aggr...
Definition: build_interesting_orders.h:84
hypergraph::NodeMap required_nodes
Definition: build_interesting_orders.h:69
int ordering_idx
Definition: build_interesting_orders.h:47
Definition: table.h:1399