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diff --git a/sql/sql_analyze_stmt.h b/sql/sql_analyze_stmt.h
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+/*
+   Copyright (c) 2015, 2020, MariaDB Corporation.
+
+   This program is free software; you can redistribute it and/or modify
+   it under the terms of the GNU General Public License as published by
+   the Free Software Foundation; version 2 of the License.
+
+   This program is distributed in the hope that it will be useful,
+   but WITHOUT ANY WARRANTY; without even the implied warranty of
+   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+   GNU General Public License for more details.
+
+   You should have received a copy of the GNU General Public License
+   along with this program; if not, write to the Free Software
+   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */
+
+/*
+
+== ANALYZE-stmt classes ==
+
+This file contains classes for supporting "ANALYZE statement" feature. These are 
+a set of data structures that can be used to store the data about how the 
+statement executed.
+
+There are two kinds of data collection:
+
+1. Various counters. We assume that incrementing counters has very low
+overhead. Because of that, execution code increments counters unconditionally
+(even when not running "ANALYZE $statement" commands. You run regular SELECT/
+UPDATE/DELETE/etc and the counters are incremented).
+
+As a free bonus, this lets us print detailed information into the slow query
+log, should the query be slow.
+
+2. Timing data. Measuring the time it took to run parts of query has noticeable
+overhead. Because of that, we measure the time only when running "ANALYZE
+$stmt").
+
+*/
+
+class Gap_time_tracker;
+void attach_gap_time_tracker(THD *thd, Gap_time_tracker *gap_tracker, ulonglong timeval);
+void process_gap_time_tracker(THD *thd, ulonglong timeval);
+
+/*
+  A class for tracking time it takes to do a certain action
+*/
+class Exec_time_tracker
+{
+protected:
+  ulonglong count;
+  ulonglong cycles;
+  ulonglong last_start;
+
+  void cycles_stop_tracking(THD *thd)
+  {
+    ulonglong end= my_timer_cycles();
+    cycles += end - last_start;
+    if (unlikely(end < last_start))
+      cycles += ULONGLONG_MAX;
+
+    process_gap_time_tracker(thd, end);
+    if (my_gap_tracker)
+      attach_gap_time_tracker(thd, my_gap_tracker, end);
+  }
+public:
+  Exec_time_tracker() : count(0), cycles(0), my_gap_tracker(NULL) {}
+
+  /*
+    The time spent between stop_tracking() call on this object and any
+    other time measurement will be billed to this tracker.
+  */
+  Gap_time_tracker *my_gap_tracker;
+
+  // interface for collecting time
+  void start_tracking(THD *thd)
+  {
+    last_start= my_timer_cycles();
+    process_gap_time_tracker(thd, last_start);
+  }
+
+  void stop_tracking(THD *thd)
+  {
+    count++;
+    cycles_stop_tracking(thd);
+  }
+
+  // interface for getting the time
+  ulonglong get_loops() const { return count; }
+  double get_time_ms() const
+  {
+    // convert 'cycles' to milliseconds.
+    return 1000.0 * static_cast<double>(cycles) /
+      static_cast<double>(sys_timer_info.cycles.frequency);
+  }
+};
+
+
+/*
+  Tracker for time spent between the calls to Exec_time_tracker's {start|
+  stop}_tracking().
+
+  @seealso Gap_time_tracker_data in sql_class.h
+*/
+class Gap_time_tracker
+{
+  ulonglong cycles;
+public:
+  Gap_time_tracker() : cycles(0) {}
+
+  void log_time(ulonglong start, ulonglong end) {
+    cycles += end - start;
+  }
+
+  double get_time_ms() const
+  {
+    // convert 'cycles' to milliseconds.
+    return 1000.0 * static_cast<double>(cycles) /
+      static_cast<double>(sys_timer_info.cycles.frequency);
+  }
+};
+
+
+
+/*
+  A class for counting certain actions (in all queries), and optionally
+  collecting the timings (in ANALYZE queries).
+*/
+
+class Time_and_counter_tracker: public Exec_time_tracker
+{
+public: 
+  const bool timed;
+  
+  Time_and_counter_tracker(bool timed_arg) : timed(timed_arg)
+  {}
+   
+  /* Loops are counted in both ANALYZE and regular queries, as this is cheap */
+  void incr_loops() { count++; }
+  
+  /*
+    Unlike Exec_time_tracker::stop_tracking, we don't increase loops.
+  */
+  void stop_tracking(THD *thd)
+  {
+    cycles_stop_tracking(thd);
+  }
+};
+
+#define ANALYZE_START_TRACKING(thd, tracker) \
+  { \
+    (tracker)->incr_loops(); \
+    if (unlikely((tracker)->timed)) \
+    { (tracker)->start_tracking(thd); } \
+  }
+
+#define ANALYZE_STOP_TRACKING(thd, tracker) \
+  if (unlikely((tracker)->timed)) \
+  { (tracker)->stop_tracking(thd); }
+
+/*
+  A class for collecting read statistics.
+  
+  The idea is that we run several scans. Each scans gets rows, and then filters
+  some of them out.  We count scans, rows, and rows left after filtering.
+
+  (note: at the moment, the class is not actually tied to a physical table. 
+   It can be used to track reading from files, buffers, etc).
+*/
+
+class Table_access_tracker 
+{
+public:
+  Table_access_tracker() :
+    r_scans(0), r_rows(0), /*r_rows_after_table_cond(0),*/
+    r_rows_after_where(0)
+  {}
+
+  ha_rows r_scans; /* How many scans were ran on this join_tab */
+  ha_rows r_rows; /* How many rows we've got after that */
+  ha_rows r_rows_after_where; /* Rows after applying attached part of WHERE */
+
+  bool has_scans() const { return (r_scans != 0); }
+  ha_rows get_loops() const { return r_scans; }
+  double get_avg_rows() const
+  {
+    return r_scans
+      ? static_cast<double>(r_rows) / static_cast<double>(r_scans)
+      : 0;
+  }
+
+  double get_filtered_after_where() const
+  {
+    return r_rows > 0
+      ? static_cast<double>(r_rows_after_where) /
+        static_cast<double>(r_rows)
+      : 1.0;
+  }
+
+  inline void on_scan_init() { r_scans++; }
+  inline void on_record_read() { r_rows++; }
+  inline void on_record_after_where() { r_rows_after_where++; }
+};
+
+
+class Json_writer;
+
+/*
+  This stores the data about how filesort executed.
+
+  A few things from here (e.g. r_used_pq, r_limit) belong to the query plan,
+  however, these parameters are calculated right during the execution so we 
+  can't easily put them into the query plan.
+
+  The class is designed to handle multiple invocations of filesort().
+*/
+
+class Filesort_tracker : public Sql_alloc
+{
+public:
+  Filesort_tracker(bool do_timing) :
+    time_tracker(do_timing), r_limit(0), r_used_pq(0),
+    r_examined_rows(0), r_sorted_rows(0), r_output_rows(0),
+    sort_passes(0),
+    sort_buffer_size(0),
+    r_using_addons(false),
+    r_packed_addon_fields(false),
+    r_sort_keys_packed(false)
+  {}
+  
+  /* Functions that filesort uses to report various things about its execution */
+
+  inline void report_use(THD *thd, ha_rows r_limit_arg)
+  {
+    if (!time_tracker.get_loops())
+      r_limit= r_limit_arg;
+    else
+      r_limit= (r_limit != r_limit_arg)? 0: r_limit_arg;
+
+    ANALYZE_START_TRACKING(thd, &time_tracker);
+  }
+  inline void incr_pq_used() { r_used_pq++; }
+
+  inline void report_row_numbers(ha_rows examined_rows, 
+                                 ha_rows sorted_rows,
+                                 ha_rows returned_rows) 
+  { 
+    r_examined_rows += examined_rows;
+    r_sorted_rows   += sorted_rows;
+    r_output_rows   += returned_rows;
+  }
+
+  inline void report_merge_passes_at_start(ulong passes)
+  {
+    sort_passes -= passes;
+  }
+  inline void report_merge_passes_at_end(THD *thd, ulong passes)
+  {
+    ANALYZE_STOP_TRACKING(thd, &time_tracker);
+    sort_passes += passes;
+  }
+
+  inline void report_sort_buffer_size(size_t bufsize)
+  {
+    if (sort_buffer_size)
+      sort_buffer_size= ulonglong(-1); // multiple buffers of different sizes
+    else
+      sort_buffer_size= bufsize;
+  }
+
+  inline void report_addon_fields_format(bool addons_packed)
+  {
+    r_using_addons= true;
+    r_packed_addon_fields= addons_packed;
+  }
+  inline void report_sort_keys_format(bool sort_keys_packed)
+  {
+    r_sort_keys_packed= sort_keys_packed;
+  }
+
+  void get_data_format(String *str);
+
+  /* Functions to get the statistics */
+  void print_json_members(Json_writer *writer);
+
+  ulonglong get_r_loops() const { return time_tracker.get_loops(); }
+  double get_avg_examined_rows() const
+  {
+    return static_cast<double>(r_examined_rows) /
+      static_cast<double>(get_r_loops());
+  }
+  double get_avg_returned_rows() const
+  {
+    return static_cast<double>(r_output_rows) /
+      static_cast<double>(get_r_loops());
+  }
+  double get_r_filtered() const
+  {
+    return r_examined_rows > 0
+      ? static_cast<double>(r_sorted_rows) /
+        static_cast<double>(r_examined_rows)
+      : 1.0;
+  }
+private:
+  Time_and_counter_tracker time_tracker;
+
+  //ulonglong r_loops; /* How many times filesort was invoked */
+  /*
+    LIMIT is typically a constant. There is never "LIMIT 0".
+      HA_POS_ERROR means we never had a limit
+      0            means different values of LIMIT were used in 
+                   different filesort invocations
+      other value  means the same LIMIT value was used every time.
+  */
+  ulonglong r_limit;
+  ulonglong r_used_pq; /* How many times PQ was used */
+
+  /* How many rows were examined (before checking the select->cond) */
+  ulonglong r_examined_rows;
+  
+  /* 
+    How many rows were put into sorting (this is examined_rows minus rows that
+    didn't pass the WHERE condition)
+  */
+  ulonglong r_sorted_rows;
+
+  /*
+    How many rows were returned. This is equal to r_sorted_rows, unless there
+    was a LIMIT N clause in which case filesort would not have returned more
+    than N rows.
+  */
+  ulonglong r_output_rows;
+
+  /* How many sorts in total (divide by r_count to get the average) */
+  ulonglong sort_passes;
+  
+  /* 
+    0              - means not used (or not known 
+    (ulonglong)-1  - multiple
+    other          - value
+  */
+  ulonglong sort_buffer_size;
+  bool r_using_addons;
+  bool r_packed_addon_fields;
+  bool r_sort_keys_packed;
+};
+
+
+/**
+  A class to collect data about how rowid filter is executed.
+
+  It stores information about how rowid filter container is filled,
+  containers size and observed selectivity.
+
+  The observed selectivity is calculated in this way.
+  Some elements elem_set are checked if they belong to container.
+  Observed selectivity is calculated as the count of elem_set
+  elements that belong to container devided by all elem_set elements.
+*/
+
+class Rowid_filter_tracker : public Sql_alloc
+{
+private:
+  /* A member to track the time to fill the rowid filter */
+  Time_and_counter_tracker time_tracker;
+
+  /* Size of the rowid filter container buffer */
+  size_t container_buff_size;
+
+  /* Count of elements that were used to fill the rowid filter container */
+  uint container_elements;
+
+  /* Elements counts used for observed selectivity calculation */
+  uint n_checks;
+  uint n_positive_checks;
+public:
+  Rowid_filter_tracker(bool do_timing) :
+    time_tracker(do_timing), container_buff_size(0),
+    container_elements(0), n_checks(0), n_positive_checks(0)
+  {}
+
+  inline void start_tracking(THD *thd)
+  {
+    ANALYZE_START_TRACKING(thd, &time_tracker);
+  }
+
+  inline void stop_tracking(THD *thd)
+  {
+    ANALYZE_STOP_TRACKING(thd, &time_tracker);
+  }
+
+  /* Save container buffer size in bytes */
+  inline void report_container_buff_size(uint elem_size)
+  {
+   container_buff_size= container_elements * elem_size / 8;
+  }
+
+  Time_and_counter_tracker *get_time_tracker()
+  {
+    return &time_tracker;
+  }
+
+  double get_time_fill_container_ms() const
+  {
+    return time_tracker.get_time_ms();
+  }
+
+  void increment_checked_elements_count(bool was_checked)
+  {
+    n_checks++;
+    if (was_checked)
+     n_positive_checks++;
+  }
+
+  inline void increment_container_elements_count() { container_elements++; }
+
+  uint get_container_elements() const { return container_elements; }
+
+  double get_r_selectivity_pct() const
+  {
+    return static_cast<double>(n_positive_checks) /
+      static_cast<double>(n_checks);
+  }
+
+  size_t get_container_buff_size() const { return container_buff_size; }
+};
+