item_func.h

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#ifndef ITEM_FUNC_INCLUDED
#define ITEM_FUNC_INCLUDED

/* Copyright (c) 2000, 2019, Oracle and/or its affiliates. All rights reserved.

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License, version 2.0,
   as published by the Free Software Foundation.

   This program is also distributed with certain software (including
   but not limited to OpenSSL) that is licensed under separate terms,
   as designated in a particular file or component or in included license
   documentation.  The authors of MySQL hereby grant you an additional
   permission to link the program and your derivative works with the
   separately licensed software that they have included with MySQL.

   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, version 2.0, 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 St, Fifth Floor, Boston, MA 02110-1301  USA */

#include <limits.h>
#include <stddef.h>
#include <sys/types.h>
#include <cmath>  // isfinite
#include <functional>

#include "decimal.h"
#include "ft_global.h"
#include "lex_string.h"
#include "m_ctype.h"
#include "my_alloc.h"
#include "my_base.h"
#include "my_compiler.h"
#include "my_dbug.h"
#include "my_inttypes.h"
#include "my_pointer_arithmetic.h"
#include "my_sys.h"
#include "my_table_map.h"
#include "my_thread_local.h"
#include "my_time.h"
#include "mysql/service_mysql_alloc.h"
#include "mysql/udf_registration_types.h"
#include "mysql_com.h"
#include "mysql_time.h"
#include "mysqld_error.h"
#include "sql/enum_query_type.h"
#include "sql/field.h"
#include "sql/handler.h"
#include "sql/item.h"        // Item_result_field
#include "sql/my_decimal.h"  // string2my_decimal
#include "sql/parse_tree_node_base.h"
#include "sql/set_var.h"  // enum_var_type
#include "sql/sql_const.h"
#include "sql/sql_udf.h"  // udf_handler
#include "sql/table.h"
#include "sql/thr_malloc.h"
#include "sql_string.h"

class Json_wrapper;
class PT_item_list;
class Protocol;
class SELECT_LEX;
class THD;
class sp_rcontext;
struct MY_BITMAP;
template <class T>
class List;

/* Function items used by mysql */

extern bool reject_geometry_args(uint arg_count, Item **args,
                                 Item_result_field *me);
void unsupported_json_comparison(size_t arg_count, Item **args,
                                 const char *msg);

class Item_func : public Item_result_field {
  typedef Item_result_field super;

 protected:
  Item **args, *tmp_arg[2];
  /**
    Affects how to determine that NULL argument implies a NULL function return.
    Default behaviour in this class is:
    - if true, any NULL argument means the function returns NULL.
    - if false, no such assumption is made and not_null_tables_cache is thus
      set to 0.
    null_on_null is true for all Item_func derived classes, except Item_func_sp,
    all CASE derived functions and a few other functions.
    RETURNS NULL ON NULL INPUT can be implemented for stored functions by
    modifying this member in class Item_func_sp.
  */
  bool null_on_null = true;
  /*
    Allowed numbers of columns in result (usually 1, which means scalar value)
    0 means get this number from first argument
  */
  uint allowed_arg_cols = 1;
  /// Value used in calculation of result of used_tables()
  table_map used_tables_cache;
  /// Value used in calculation of result of not_null_tables()
  table_map not_null_tables_cache;

 public:
  uint arg_count;
  /*
    When updating Functype with new spatial functions,
    is_spatial_operator() should also be updated.

    DD_INTERNAL_FUNC:
      Some of the internal functions introduced for the INFORMATION_SCHEMA views
      opens data-dictionary tables. DD_INTERNAL_FUNC is used for the such type
      of functions.
  */
  enum Functype {
    UNKNOWN_FUNC,
    EQ_FUNC,
    EQUAL_FUNC,
    NE_FUNC,
    LT_FUNC,
    LE_FUNC,
    GE_FUNC,
    GT_FUNC,
    FT_FUNC,
    MATCH_FUNC,
    LIKE_FUNC,
    ISNULL_FUNC,
    ISNOTNULL_FUNC,
    ISTRUTH_FUNC,
    COND_AND_FUNC,
    COND_OR_FUNC,
    XOR_FUNC,
    BETWEEN,
    IN_FUNC,
    MULT_EQUAL_FUNC,
    INTERVAL_FUNC,
    ISNOTNULLTEST_FUNC,
    SP_EQUALS_FUNC,
    SP_DISJOINT_FUNC,
    SP_INTERSECTS_FUNC,
    SP_TOUCHES_FUNC,
    SP_CROSSES_FUNC,
    SP_WITHIN_FUNC,
    SP_CONTAINS_FUNC,
    SP_COVEREDBY_FUNC,
    SP_COVERS_FUNC,
    SP_OVERLAPS_FUNC,
    SP_STARTPOINT,
    SP_ENDPOINT,
    SP_EXTERIORRING,
    SP_POINTN,
    SP_GEOMETRYN,
    SP_INTERIORRINGN,
    NOT_FUNC,
    NOT_ALL_FUNC,
    NOW_FUNC,
    TRIG_COND_FUNC,
    SUSERVAR_FUNC,
    GUSERVAR_FUNC,
    COLLATE_FUNC,
    EXTRACT_FUNC,
    TYPECAST_FUNC,
    FUNC_SP,
    UDF_FUNC,
    NEG_FUNC,
    GSYSVAR_FUNC,
    GROUPING_FUNC,
    TABLE_FUNC,
    DD_INTERNAL_FUNC,
    PLUS_FUNC,
    MINUS_FUNC,
    MUL_FUNC,
    DIV_FUNC,
    CEILING_FUNC,
    SQRT_FUNC,
    ABS_FUNC,
    FLOOR_FUNC,
    LOG_FUNC,
    LN_FUNC,
    LOG10_FUNC,
    SIN_FUNC,
    TAN_FUNC,
    COS_FUNC,
    ASIN_FUNC,
    ATAN_FUNC,
    ACOS_FUNC,
    MOD_FUNC,
    IF_FUNC,
    CASE_FUNC,
    YEAR_FUNC,
    MONTH_FUNC,
    DAY_FUNC,
    TO_DAYS_FUNC,
    DATE_FUNC,
    HOUR_FUNC,
    MINUTE_FUNC,
    SECOND_FUNC,
    MICROSECOND_FUNC,
    WEEK_FUNC,
    WEEKDAY_FUNC,
    DATEADD_FUNC,
    DATETIME_LITERAL,
    GREATEST_FUNC,
    LEAST_FUNC,
    JSON_CONTAINS,
    JSON_OVERLAPS,
    MEMBER_OF_FUNC
  };
  enum optimize_type {
    OPTIMIZE_NONE,
    OPTIMIZE_KEY,
    OPTIMIZE_OP,
    OPTIMIZE_NULL,
    OPTIMIZE_EQUAL
  };
  enum Type type() const override { return FUNC_ITEM; }
  virtual enum Functype functype() const { return UNKNOWN_FUNC; }
  Item_func() : arg_count(0) { args = tmp_arg; }

  explicit Item_func(const POS &pos) : super(pos), arg_count(0) {
    args = tmp_arg;
  }

  Item_func(Item *a) : arg_count(1) {
    args = tmp_arg;
    args[0] = a;
    set_accum_properties(a);
  }
  Item_func(const POS &pos, Item *a) : super(pos), arg_count(1) {
    args = tmp_arg;
    args[0] = a;
  }

  Item_func(Item *a, Item *b) : arg_count(2) {
    args = tmp_arg;
    args[0] = a;
    args[1] = b;
    m_accum_properties = 0;
    add_accum_properties(a);
    add_accum_properties(b);
  }
  Item_func(const POS &pos, Item *a, Item *b) : super(pos), arg_count(2) {
    args = tmp_arg;
    args[0] = a;
    args[1] = b;
  }

  Item_func(Item *a, Item *b, Item *c) : arg_count(3) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 3))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
      m_accum_properties = 0;
      add_accum_properties(a);
      add_accum_properties(b);
      add_accum_properties(c);
    } else
      arg_count = 0;  // OOM
  }

  Item_func(const POS &pos, Item *a, Item *b, Item *c)
      : super(pos), arg_count(3) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 3))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
    } else
      arg_count = 0;  // OOM
  }

  Item_func(Item *a, Item *b, Item *c, Item *d) : arg_count(4) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 4))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
      args[3] = d;
      m_accum_properties = 0;
      add_accum_properties(a);
      add_accum_properties(b);
      add_accum_properties(c);
      add_accum_properties(d);
    } else
      arg_count = 0;  // OOM
  }
  Item_func(const POS &pos, Item *a, Item *b, Item *c, Item *d)
      : super(pos), arg_count(4) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 4))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
      args[3] = d;
    } else
      arg_count = 0;  // OOM
  }

  Item_func(Item *a, Item *b, Item *c, Item *d, Item *e) : arg_count(5) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 5))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
      args[3] = d;
      args[4] = e;
      m_accum_properties = 0;
      add_accum_properties(a);
      add_accum_properties(b);
      add_accum_properties(c);
      add_accum_properties(d);
      add_accum_properties(e);
    } else
      arg_count = 0;  // OOM
  }
  Item_func(const POS &pos, Item *a, Item *b, Item *c, Item *d, Item *e)
      : super(pos), arg_count(5) {
    if ((args = (Item **)(*THR_MALLOC)->Alloc(sizeof(Item *) * 5))) {
      args[0] = a;
      args[1] = b;
      args[2] = c;
      args[3] = d;
      args[4] = e;
    } else
      arg_count = 0;  // OOM
  }
  Item_func(List<Item> &list) { set_arguments(list, false); }

  Item_func(const POS &pos, PT_item_list *opt_list);

  // Constructor used for Item_cond_and/or (see Item comment)
  Item_func(THD *thd, Item_func *item);

  bool itemize(Parse_context *pc, Item **res) override;

  bool fix_fields(THD *, Item **ref) override;
  bool fix_func_arg(THD *, Item **arg);
  void fix_after_pullout(SELECT_LEX *parent_select,
                         SELECT_LEX *removed_select) override;
  /**
     Returns the pseudo tables depended upon in order to evaluate this
     function expression. The default implementation returns the empty
     set.
  */
  virtual table_map get_initial_pseudo_tables() const { return 0; }
  table_map used_tables() const override { return used_tables_cache; }
  table_map not_null_tables() const override { return not_null_tables_cache; }
  void update_used_tables() override;
  void set_used_tables(table_map map) { used_tables_cache = map; }
  bool eq(const Item *item, bool binary_cmp) const override;
  virtual optimize_type select_optimize(const THD *) { return OPTIMIZE_NONE; }
  virtual bool have_rev_func() const { return 0; }
  virtual Item *key_item() const { return args[0]; }
  inline Item **arguments() const {
    DBUG_ASSERT(argument_count() > 0);
    return args;
  }
  /**
    Copy arguments from list to args array

    @param list           function argument list
    @param context_free   true: for use in context-independent
                          constructors (Item_func(POS,...)) i.e. for use
                          in the parser
  */
  void set_arguments(List<Item> &list, bool context_free);
  inline uint argument_count() const { return arg_count; }
  void split_sum_func(THD *thd, Ref_item_array ref_item_array,
                      List<Item> &fields) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  void print_op(const THD *thd, String *str, enum_query_type query_type) const;
  void print_args(const THD *thd, String *str, uint from,
                  enum_query_type query_type) const;
  virtual void fix_num_length_and_dec();
  virtual bool is_deprecated() const { return false; }
  bool get_arg0_date(MYSQL_TIME *ltime, my_time_flags_t fuzzy_date) {
    return (null_value = args[0]->get_date(ltime, fuzzy_date));
  }
  inline bool get_arg0_time(MYSQL_TIME *ltime) {
    return (null_value = args[0]->get_time(ltime));
  }
  bool is_null() override {
    /*
      TODO : Implement error handling for this function as
      update_null_value() can return error.
    */
    (void)update_null_value();
    return null_value;
  }
  void signal_divide_by_null();
  void signal_invalid_argument_for_log();
  friend class udf_handler;
  Field *tmp_table_field() { return result_field; }
  Field *tmp_table_field(TABLE *t_arg) override;
  Item *get_tmp_table_item(THD *thd) override;

  my_decimal *val_decimal(my_decimal *) override;

  bool agg_arg_charsets(DTCollation &c, Item **items, uint nitems, uint flags,
                        int item_sep) {
    return agg_item_charsets(c, func_name(), items, nitems, flags, item_sep);
  }
  /*
    Aggregate arguments for string result, e.g: CONCAT(a,b)
    - convert to @@character_set_connection if all arguments are numbers
    - allow DERIVATION_NONE
  */
  bool agg_arg_charsets_for_string_result(DTCollation &c, Item **items,
                                          uint nitems, int item_sep = 1) {
    return agg_item_charsets_for_string_result(c, func_name(), items, nitems,
                                               item_sep);
  }
  /*
    Aggregate arguments for comparison, e.g: a=b, a LIKE b, a RLIKE b
    - don't convert to @@character_set_connection if all arguments are numbers
    - don't allow DERIVATION_NONE
  */
  bool agg_arg_charsets_for_comparison(DTCollation &c, Item **items,
                                       uint nitems, int item_sep = 1) {
    return agg_item_charsets_for_comparison(c, func_name(), items, nitems,
                                            item_sep);
  }
  /*
    Aggregate arguments for string result, when some comparison
    is involved internally, e.g: REPLACE(a,b,c)
    - convert to @@character_set_connection if all arguments are numbers
    - disallow DERIVATION_NONE
  */
  bool agg_arg_charsets_for_string_result_with_comparison(DTCollation &c,
                                                          Item **items,
                                                          uint nitems,
                                                          int item_sep = 1) {
    return agg_item_charsets_for_string_result_with_comparison(
        c, func_name(), items, nitems, item_sep);
  }
  bool walk(Item_processor processor, enum_walk walk, uchar *arg) override;
  Item *transform(Item_transformer transformer, uchar *arg) override;
  Item *compile(Item_analyzer analyzer, uchar **arg_p,
                Item_transformer transformer, uchar *arg_t) override;
  void traverse_cond(Cond_traverser traverser, void *arg,
                     traverse_order order) override;

  /**
     Throw an error if the input double number is not finite, i.e. is either
     +/-INF or NAN.
  */
  inline double check_float_overflow(double value) {
    return std::isfinite(value) ? value : raise_float_overflow();
  }
  /**
    Throw an error if the input BIGINT value represented by the
    (longlong value, bool unsigned flag) pair cannot be returned by the
    function, i.e. is not compatible with this Item's unsigned_flag.
  */
  inline longlong check_integer_overflow(longlong value, bool val_unsigned) {
    if ((unsigned_flag && !val_unsigned && value < 0) ||
        (!unsigned_flag && val_unsigned &&
         (ulonglong)value > (ulonglong)LLONG_MAX))
      return raise_integer_overflow();
    return value;
  }
  /**
     Throw an error if the error code of a DECIMAL operation is E_DEC_OVERFLOW.
  */
  inline int check_decimal_overflow(int error) {
    return (error == E_DEC_OVERFLOW) ? raise_decimal_overflow() : error;
  }

  bool has_timestamp_args() {
    DBUG_ASSERT(fixed);
    for (uint i = 0; i < arg_count; i++) {
      if (args[i]->type() == Item::FIELD_ITEM &&
          args[i]->data_type() == MYSQL_TYPE_TIMESTAMP)
        return true;
    }
    return false;
  }

  bool has_date_args() {
    DBUG_ASSERT(fixed);
    for (uint i = 0; i < arg_count; i++) {
      if (args[i]->type() == Item::FIELD_ITEM &&
          (args[i]->data_type() == MYSQL_TYPE_DATE ||
           args[i]->data_type() == MYSQL_TYPE_DATETIME))
        return true;
    }
    return false;
  }

  bool has_time_args() {
    DBUG_ASSERT(fixed);
    for (uint i = 0; i < arg_count; i++) {
      if (args[i]->type() == Item::FIELD_ITEM &&
          (args[i]->data_type() == MYSQL_TYPE_TIME ||
           args[i]->data_type() == MYSQL_TYPE_DATETIME))
        return true;
    }
    return false;
  }

  bool has_datetime_args() {
    DBUG_ASSERT(fixed);
    for (uint i = 0; i < arg_count; i++) {
      if (args[i]->type() == Item::FIELD_ITEM &&
          args[i]->data_type() == MYSQL_TYPE_DATETIME)
        return true;
    }
    return false;
  }

  /*
    We assume the result of any function that has a TIMESTAMP argument to be
    timezone-dependent, since a TIMESTAMP value in both numeric and string
    contexts is interpreted according to the current timezone.
    The only exception is UNIX_TIMESTAMP() which returns the internal
    representation of a TIMESTAMP argument verbatim, and thus does not depend on
    the timezone.
   */
  bool check_valid_arguments_processor(uchar *) override {
    return has_timestamp_args();
  }

  Item *gc_subst_transformer(uchar *arg) override;

  /**
    Does essentially the same as THD::change_item_tree, plus
    maintains any necessary any invariants.
  */
  virtual void replace_argument(THD *thd, Item **oldpp, Item *newp);

  /**
    Whether an arg of a JSON function can be cached to avoid repetitive
    string->JSON conversion. This function returns true only for those args,
    which are the source of JSON data. JSON path args are cached independently
    and for them this function returns false. Same as for all other type of
    args.

    @param arg  the arg to cache

    @returns
      true   arg can be cached
      false  otherwise
  */
  virtual enum_const_item_cache can_cache_json_arg(
      Item *arg MY_ATTRIBUTE((unused))) {
    return CACHE_NONE;
  }

 protected:
  /**
    Whether or not an item should contribute to the filtering effect
    (@see get_filtering_effect()). First it verifies that table
    requirements are satisfied as follows:

     1) The item must refer to a field in 'filter_for_table' in some
        way. This reference may be indirect through any number of
        intermediate items. For example, this item may be an
        Item_cond_and which refers to an Item_func_eq which refers to
        the field.
     2) The item must not refer to other tables than those already
        read and the table in 'filter_for_table'

    Then it contines to other properties as follows:

    Item_funcs represent "<operand1> OP <operand2> [OP ...]". If the
    Item_func is to contribute to the filtering effect, then

    1) one of the operands must be a field from 'filter_for_table' that is not
       in 'fields_to_ignore', and
    2) depending on the Item_func type filtering effect is calculated
       for, one or all [1] of the other operand(s) must be an available
       value, i.e.:
       - a constant, or
       - a constant subquery, or
       - a field value read from a table in 'read_tables', or
       - a second field in 'filter_for_table', or
       - a function that only refers to constants or tables in
         'read_tables', or
       - special case: an implicit value like NULL in the case of
         "field IS NULL". Such Item_funcs have arg_count==1.

    [1] "At least one" for multiple equality (X = Y = Z = ...), "all"
    for the rest (e.g. BETWEEN)

    @param read_tables       Tables earlier in the join sequence.
                             Predicates for table 'filter_for_table' that
                             rely on values from these tables can be part of
                             the filter effect.
    @param filter_for_table  The table we are calculating filter effect for
    @param fields_to_ignore Columns that should be ignored.


    @return Item_field that participates in the predicate if none of the
            requirements are broken, NULL otherwise

    @note: This function only applies to items doing comparison, i.e.
    boolean predicates. Unfortunately, some of those items do not
    inherit from Item_bool_func so the member function has to be
    placed in Item_func.
  */
  const Item_field *contributes_to_filter(
      table_map read_tables, table_map filter_for_table,
      const MY_BITMAP *fields_to_ignore) const;
  /**
    Named parameters are allowed in a parameter list

    The syntax to name parameters in a function call is as follow:
    <code>foo(expr AS named, expr named, expr AS "named", expr "named")</code>
    where "AS" is optional.
    Only UDF function support that syntax.

    @return true if the function item can have named parameters
  */
  virtual bool may_have_named_parameters() const { return false; }
  virtual bool is_non_const_over_literals(uchar *) override { return false; }

  bool check_function_as_value_generator(uchar *checker_args) override {
    if (is_deprecated()) {
      Check_function_as_value_generator_parameters *func_arg =
          pointer_cast<Check_function_as_value_generator_parameters *>(
              checker_args);
      func_arg->banned_function_name = func_name();
      return true;
    }
    return false;
  }
};

class Item_real_func : public Item_func {
 public:
  Item_real_func() : Item_func() { set_data_type_double(); }
  explicit Item_real_func(const POS &pos) : Item_func(pos) {
    set_data_type_double();
  }

  Item_real_func(Item *a) : Item_func(a) { set_data_type_double(); }
  Item_real_func(const POS &pos, Item *a) : Item_func(pos, a) {
    set_data_type_double();
  }

  Item_real_func(Item *a, Item *b) : Item_func(a, b) { set_data_type_double(); }

  Item_real_func(const POS &pos, Item *a, Item *b) : Item_func(pos, a, b) {
    set_data_type_double();
  }

  Item_real_func(List<Item> &list) : Item_func(list) { set_data_type_double(); }

  Item_real_func(const POS &pos, PT_item_list *list) : Item_func(pos, list) {
    set_data_type_double();
  }

  String *val_str(String *str) override;
  my_decimal *val_decimal(my_decimal *decimal_value) override;
  longlong val_int() override {
    DBUG_ASSERT(fixed);
    return llrint_with_overflow_check(val_real());
  }
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_real(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_real(ltime);
  }
  enum Item_result result_type() const override { return REAL_RESULT; }
  bool resolve_type(THD *) override { return false; }
};

class Item_func_numhybrid : public Item_func {
 protected:
  Item_result hybrid_type;

 public:
  Item_func_numhybrid(Item *a) : Item_func(a), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }
  Item_func_numhybrid(const POS &pos, Item *a)
      : Item_func(pos, a), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }

  Item_func_numhybrid(Item *a, Item *b)
      : Item_func(a, b), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }
  Item_func_numhybrid(const POS &pos, Item *a, Item *b)
      : Item_func(pos, a, b), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }

  Item_func_numhybrid(List<Item> &list)
      : Item_func(list), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }
  Item_func_numhybrid(const POS &pos, PT_item_list *list)
      : Item_func(pos, list), hybrid_type(REAL_RESULT) {
    collation.set_numeric();
  }

  enum Item_result result_type() const override { return hybrid_type; }
  bool resolve_type(THD *thd) override;
  void fix_num_length_and_dec() override;
  virtual void set_numeric_type() = 0;  // To be called from resolve_type()

  double val_real() override;
  longlong val_int() override;
  my_decimal *val_decimal(my_decimal *) override;
  String *val_str(String *str) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override;
  bool get_time(MYSQL_TIME *ltime) override;
  /**
     @brief Performs the operation that this functions implements when the
     result type is INT.

     @return The result of the operation.
  */
  virtual longlong int_op() = 0;

  /**
     @brief Performs the operation that this functions implements when the
     result type is REAL.

     @return The result of the operation.
  */
  virtual double real_op() = 0;

  /**
     @brief Performs the operation that this functions implements when the
     result type is DECIMAL.

     @param decimal_value A pointer where the DECIMAL value will be allocated.
     @return
       - 0 If the result is NULL
       - The same pointer it was given, with the area initialized to the
         result of the operation.
  */
  virtual my_decimal *decimal_op(my_decimal *decimal_value) = 0;

  /**
     @brief Performs the operation that this functions implements when the
     result type is a string type.

     @return The result of the operation.
  */
  virtual String *str_op(String *) = 0;
  /**
     @brief Performs the operation that this functions implements when the
     result type is MYSQL_TYPE_DATE or MYSQL_TYPE_DATETIME.

     @return The result of the operation.
  */
  virtual bool date_op(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) = 0;
  virtual bool time_op(MYSQL_TIME *ltime) = 0;
  bool is_null() override {
    /*
      TODO : Implement error handling for this function as
      update_null_value() can return error.
    */
    (void)update_null_value();
    return null_value;
  }
};

/* function where type of result detected by first argument */
class Item_func_num1 : public Item_func_numhybrid {
 public:
  Item_func_num1(Item *a) : Item_func_numhybrid(a) {}
  Item_func_num1(const POS &pos, Item *a) : Item_func_numhybrid(pos, a) {}

  Item_func_num1(Item *a, Item *b) : Item_func_numhybrid(a, b) {}
  Item_func_num1(const POS &pos, Item *a, Item *b)
      : Item_func_numhybrid(pos, a, b) {}

  void fix_num_length_and_dec() override;
  void set_numeric_type() override;
  String *str_op(String *) override {
    DBUG_ASSERT(0);
    return 0;
  }
  bool date_op(MYSQL_TIME *, my_time_flags_t) override {
    DBUG_ASSERT(0);
    return 0;
  }
  bool time_op(MYSQL_TIME *) override {
    DBUG_ASSERT(0);
    return 0;
  }
};

/* Base class for operations like '+', '-', '*' */
class Item_num_op : public Item_func_numhybrid {
 public:
  Item_num_op(Item *a, Item *b) : Item_func_numhybrid(a, b) {}
  Item_num_op(const POS &pos, Item *a, Item *b)
      : Item_func_numhybrid(pos, a, b) {}

  virtual void result_precision() = 0;

  void print(const THD *thd, String *str,
             enum_query_type query_type) const override {
    print_op(thd, str, query_type);
  }

  void set_numeric_type() override;
  String *str_op(String *) override {
    DBUG_ASSERT(0);
    return 0;
  }
  bool date_op(MYSQL_TIME *, my_time_flags_t) override {
    DBUG_ASSERT(0);
    return 0;
  }
  bool time_op(MYSQL_TIME *) override {
    DBUG_ASSERT(0);
    return 0;
  }
};

class Item_int_func : public Item_func {
 public:
  Item_int_func() : Item_func() { set_data_type_longlong(); }
  explicit Item_int_func(const POS &pos) : Item_func(pos) {
    set_data_type_longlong();
  }

  Item_int_func(Item *a) : Item_func(a) { set_data_type_longlong(); }
  Item_int_func(const POS &pos, Item *a) : Item_func(pos, a) {
    set_data_type_longlong();
  }

  Item_int_func(Item *a, Item *b) : Item_func(a, b) {
    set_data_type_longlong();
  }
  Item_int_func(const POS &pos, Item *a, Item *b) : Item_func(pos, a, b) {
    set_data_type_longlong();
  }

  Item_int_func(Item *a, Item *b, Item *c) : Item_func(a, b, c) {
    set_data_type_longlong();
  }
  Item_int_func(const POS &pos, Item *a, Item *b, Item *c)
      : Item_func(pos, a, b, c) {
    set_data_type_longlong();
  }

  Item_int_func(Item *a, Item *b, Item *c, Item *d) : Item_func(a, b, c, d) {
    set_data_type_longlong();
  }
  Item_int_func(const POS &pos, Item *a, Item *b, Item *c, Item *d)
      : Item_func(pos, a, b, c, d) {
    set_data_type_longlong();
  }

  Item_int_func(List<Item> &list) : Item_func(list) {
    set_data_type_longlong();
  }
  Item_int_func(const POS &pos, PT_item_list *opt_list)
      : Item_func(pos, opt_list) {
    set_data_type_longlong();
  }

  Item_int_func(THD *thd, Item_int_func *item) : Item_func(thd, item) {
    set_data_type_longlong();
  }
  double val_real() override;
  String *val_str(String *str) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_int(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override { return get_time_from_int(ltime); }
  enum Item_result result_type() const override { return INT_RESULT; }
  bool resolve_type(THD *) override { return false; }
};

class Item_func_connection_id final : public Item_int_func {
  typedef Item_int_func super;

  longlong value;

 public:
  Item_func_connection_id(const POS &pos) : Item_int_func(pos) {}

  bool itemize(Parse_context *pc, Item **res) override;
  const char *func_name() const override { return "connection_id"; }
  bool resolve_type(THD *thd) override;
  bool fix_fields(THD *thd, Item **ref) override;
  longlong val_int() override {
    DBUG_ASSERT(fixed);
    return value;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return ((func_arg->source == VGS_GENERATED_COLUMN) ||
            (func_arg->source == VGS_CHECK_CONSTRAINT));
  }
};

class Item_typecast_signed : public Item_int_func {
 public:
  Item_typecast_signed(const POS &pos, Item *a) : Item_int_func(pos, a) {
    unsigned_flag = false;
  }
  const char *func_name() const override { return "cast_as_signed"; }
  longlong val_int() override;
  longlong val_int_from_str(int *error);
  bool resolve_type(THD *thd) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  uint decimal_precision() const override {
    return args[0]->decimal_precision();
  }
  enum Functype functype() const override { return TYPECAST_FUNC; }
};

class Item_typecast_unsigned final : public Item_typecast_signed {
 public:
  Item_typecast_unsigned(const POS &pos, Item *a)
      : Item_typecast_signed(pos, a) {
    unsigned_flag = true;
  }
  const char *func_name() const override { return "cast_as_unsigned"; }
  longlong val_int() override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  enum Functype functype() const override { return TYPECAST_FUNC; }
};

class Item_typecast_decimal final : public Item_func {
 public:
  Item_typecast_decimal(const POS &pos, Item *a, int len, int dec)
      : Item_func(pos, a) {
    set_data_type_decimal(len, dec);
  }
  String *val_str(String *str) override;
  double val_real() override;
  longlong val_int() override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_decimal(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_decimal(ltime);
  }
  my_decimal *val_decimal(my_decimal *) override;
  enum Item_result result_type() const override { return DECIMAL_RESULT; }
  bool resolve_type(THD *) override { return false; }
  const char *func_name() const override { return "cast_as_decimal"; }
  enum Functype functype() const override { return TYPECAST_FUNC; }
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
};

/**
  Class used to implement CAST to floating-point data types.
*/
class Item_typecast_real final : public Item_func {
 public:
  Item_typecast_real(const POS &pos, Item *a, bool as_double)
      : Item_func(pos, a) {
    if (as_double)
      set_data_type_double();
    else
      set_data_type_float();
  }
  String *val_str(String *str) override;
  double val_real() override;
  longlong val_int() override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override;
  bool get_time(MYSQL_TIME *ltime) override;
  my_decimal *val_decimal(my_decimal *decimal_value) override;
  enum Item_result result_type() const override { return REAL_RESULT; }
  bool resolve_type(THD *) override { return false; }
  const char *func_name() const override { return "cast_as_real"; }
  enum Functype functype() const override { return TYPECAST_FUNC; }
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
};

class Item_func_additive_op : public Item_num_op {
 public:
  Item_func_additive_op(Item *a, Item *b) : Item_num_op(a, b) {}
  Item_func_additive_op(const POS &pos, Item *a, Item *b)
      : Item_num_op(pos, a, b) {}

  void result_precision() override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
};

class Item_func_plus final : public Item_func_additive_op {
 public:
  Item_func_plus(Item *a, Item *b) : Item_func_additive_op(a, b) {}
  Item_func_plus(const POS &pos, Item *a, Item *b)
      : Item_func_additive_op(pos, a, b) {}

  const char *func_name() const override { return "+"; }

  // SUPPRESS_UBSAN: signed integer overflow
  longlong int_op() override SUPPRESS_UBSAN;

  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  enum Functype functype() const override { return PLUS_FUNC; }
};

class Item_func_minus final : public Item_func_additive_op {
 public:
  Item_func_minus(Item *a, Item *b) : Item_func_additive_op(a, b) {}
  Item_func_minus(const POS &pos, Item *a, Item *b)
      : Item_func_additive_op(pos, a, b) {}

  const char *func_name() const override { return "-"; }

  // SUPPRESS_UBSAN: signed integer overflow
  longlong int_op() override SUPPRESS_UBSAN;

  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  bool resolve_type(THD *thd) override;
  enum Functype functype() const override { return MINUS_FUNC; }
};

class Item_func_mul final : public Item_num_op {
 public:
  Item_func_mul(Item *a, Item *b) : Item_num_op(a, b) {}
  Item_func_mul(const POS &pos, Item *a, Item *b) : Item_num_op(pos, a, b) {}

  const char *func_name() const override { return "*"; }
  longlong int_op() override;
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  void result_precision() override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
  enum Functype functype() const override { return MUL_FUNC; }
};

class Item_func_div final : public Item_num_op {
 public:
  uint prec_increment;
  Item_func_div(const POS &pos, Item *a, Item *b) : Item_num_op(pos, a, b) {}
  longlong int_op() override {
    DBUG_ASSERT(0);
    return 0;
  }
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  const char *func_name() const override { return "/"; }
  bool resolve_type(THD *thd) override;
  void result_precision() override;
  enum Functype functype() const override { return DIV_FUNC; }
};

class Item_func_int_div final : public Item_int_func {
 public:
  Item_func_int_div(Item *a, Item *b) : Item_int_func(a, b) {}
  Item_func_int_div(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  longlong val_int() override;
  const char *func_name() const override { return "DIV"; }
  bool resolve_type(THD *thd) override;

  void print(const THD *thd, String *str,
             enum_query_type query_type) const override {
    print_op(thd, str, query_type);
  }

  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
};

class Item_func_mod final : public Item_num_op {
 public:
  Item_func_mod(Item *a, Item *b) : Item_num_op(a, b) {}
  Item_func_mod(const POS &pos, Item *a, Item *b) : Item_num_op(pos, a, b) {}

  longlong int_op() override;
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  const char *func_name() const override { return "%"; }
  void result_precision() override;
  bool resolve_type(THD *thd) override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
  enum Functype functype() const override { return MOD_FUNC; }
};

class Item_func_neg final : public Item_func_num1 {
 public:
  Item_func_neg(Item *a) : Item_func_num1(a) {}
  Item_func_neg(const POS &pos, Item *a) : Item_func_num1(pos, a) {}

  double real_op() override;
  longlong int_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  const char *func_name() const override { return "-"; }
  enum Functype functype() const override { return NEG_FUNC; }
  bool resolve_type(THD *thd) override;
  void fix_num_length_and_dec() override;
  uint decimal_precision() const override {
    return args[0]->decimal_precision();
  }
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
};

class Item_func_abs final : public Item_func_num1 {
 public:
  Item_func_abs(const POS &pos, Item *a) : Item_func_num1(pos, a) {}
  double real_op() override;
  longlong int_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  const char *func_name() const override { return "abs"; }
  bool resolve_type(THD *) override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
  enum Functype functype() const override { return ABS_FUNC; }
};

// A class to handle logarithmic and trigonometric functions

class Item_dec_func : public Item_real_func {
 public:
  Item_dec_func(Item *a) : Item_real_func(a) {}
  Item_dec_func(const POS &pos, Item *a) : Item_real_func(pos, a) {}

  Item_dec_func(const POS &pos, Item *a, Item *b) : Item_real_func(pos, a, b) {}
  bool resolve_type(THD *thd) override;
};

class Item_func_exp final : public Item_dec_func {
 public:
  Item_func_exp(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "exp"; }
};

class Item_func_ln final : public Item_dec_func {
 public:
  Item_func_ln(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "ln"; }
  enum Functype functype() const override { return LN_FUNC; }
};

class Item_func_log final : public Item_dec_func {
 public:
  Item_func_log(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  Item_func_log(const POS &pos, Item *a, Item *b) : Item_dec_func(pos, a, b) {}
  double val_real() override;
  const char *func_name() const override { return "log"; }
  enum Functype functype() const override { return LOG_FUNC; }
};

class Item_func_log2 final : public Item_dec_func {
 public:
  Item_func_log2(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "log2"; }
};

class Item_func_log10 final : public Item_dec_func {
 public:
  Item_func_log10(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "log10"; }
  enum Functype functype() const override { return LOG10_FUNC; }
};

class Item_func_sqrt final : public Item_dec_func {
 public:
  Item_func_sqrt(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "sqrt"; }
  enum Functype functype() const override { return SQRT_FUNC; }
};

class Item_func_pow final : public Item_dec_func {
 public:
  Item_func_pow(const POS &pos, Item *a, Item *b) : Item_dec_func(pos, a, b) {}
  double val_real() override;
  const char *func_name() const override { return "pow"; }
};

class Item_func_acos final : public Item_dec_func {
 public:
  Item_func_acos(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "acos"; }
  enum Functype functype() const override { return ACOS_FUNC; }
};

class Item_func_asin final : public Item_dec_func {
 public:
  Item_func_asin(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "asin"; }
  enum Functype functype() const override { return ASIN_FUNC; }
};

class Item_func_atan final : public Item_dec_func {
 public:
  Item_func_atan(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  Item_func_atan(const POS &pos, Item *a, Item *b) : Item_dec_func(pos, a, b) {}
  double val_real() override;
  const char *func_name() const override { return "atan"; }
  enum Functype functype() const override { return ATAN_FUNC; }
};

class Item_func_cos final : public Item_dec_func {
 public:
  Item_func_cos(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "cos"; }
  enum Functype functype() const override { return COS_FUNC; }
};

class Item_func_sin final : public Item_dec_func {
 public:
  Item_func_sin(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "sin"; }
  enum Functype functype() const override { return SIN_FUNC; }
};

class Item_func_tan final : public Item_dec_func {
 public:
  Item_func_tan(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "tan"; }
  enum Functype functype() const override { return TAN_FUNC; }
};

class Item_func_cot final : public Item_dec_func {
 public:
  Item_func_cot(const POS &pos, Item *a) : Item_dec_func(pos, a) {}
  double val_real() override;
  const char *func_name() const override { return "cot"; }
};

class Item_func_integer : public Item_int_func {
 public:
  inline Item_func_integer(Item *a) : Item_int_func(a) {}
  bool resolve_type(THD *thd) override;
};

class Item_func_int_val : public Item_func_num1 {
 public:
  Item_func_int_val(Item *a) : Item_func_num1(a) {}
  Item_func_int_val(const POS &pos, Item *a) : Item_func_num1(pos, a) {}
  void fix_num_length_and_dec() override;
  void set_numeric_type() override;
};

class Item_func_ceiling final : public Item_func_int_val {
 public:
  Item_func_ceiling(Item *a) : Item_func_int_val(a) {}
  Item_func_ceiling(const POS &pos, Item *a) : Item_func_int_val(pos, a) {}
  const char *func_name() const override { return "ceiling"; }
  longlong int_op() override;
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
  enum Functype functype() const override { return CEILING_FUNC; }
};

class Item_func_floor final : public Item_func_int_val {
 public:
  Item_func_floor(Item *a) : Item_func_int_val(a) {}
  Item_func_floor(const POS &pos, Item *a) : Item_func_int_val(pos, a) {}
  const char *func_name() const override { return "floor"; }
  longlong int_op() override;
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *) override { return false; }
  enum Functype functype() const override { return FLOOR_FUNC; }
};

/* This handles round and truncate */

class Item_func_round final : public Item_func_num1 {
  bool truncate;

 public:
  Item_func_round(Item *a, Item *b, bool trunc_arg)
      : Item_func_num1(a, b), truncate(trunc_arg) {}
  Item_func_round(const POS &pos, Item *a, Item *b, bool trunc_arg)
      : Item_func_num1(pos, a, b), truncate(trunc_arg) {}

  const char *func_name() const override {
    return truncate ? "truncate" : "round";
  }
  double real_op() override;
  longlong int_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  bool resolve_type(THD *) override;
};

class Item_func_rand final : public Item_real_func {
  typedef Item_real_func super;

  struct rand_struct *rand;
  bool first_eval;  // true if val_real() is called 1st time
 public:
  Item_func_rand(const POS &pos, Item *a)
      : Item_real_func(pos, a), rand(0), first_eval(true) {}
  explicit Item_func_rand(const POS &pos) : Item_real_func(pos) {}

  bool itemize(Parse_context *pc, Item **res) override;
  double val_real() override;
  const char *func_name() const override { return "rand"; }
  /**
    This function is non-deterministic and hence depends on the
    'RAND' pseudo-table.

    @retval RAND_TABLE_BIT
  */
  table_map get_initial_pseudo_tables() const override {
    return RAND_TABLE_BIT;
  }
  bool fix_fields(THD *thd, Item **ref) override;
  bool resolve_type(THD *thd) override;
  void cleanup() override {
    first_eval = true;
    Item_real_func::cleanup();
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return ((func_arg->source == VGS_GENERATED_COLUMN) ||
            (func_arg->source == VGS_CHECK_CONSTRAINT));
  }

 private:
  void seed_random(Item *val);
};

class Item_func_sign final : public Item_int_func {
 public:
  Item_func_sign(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  const char *func_name() const override { return "sign"; }
  longlong val_int() override;
  bool resolve_type(THD *thd) override;
};

class Item_func_units final : public Item_real_func {
  const char *name;
  double mul, add;

 public:
  Item_func_units(const POS &pos, const char *name_arg, Item *a, double mul_arg,
                  double add_arg)
      : Item_real_func(pos, a), name(name_arg), mul(mul_arg), add(add_arg) {}
  double val_real() override;
  const char *func_name() const override { return name; }
  bool resolve_type(THD *thd) override;
};

class Item_func_min_max : public Item_func_numhybrid {
 public:
  Item_func_min_max(const POS &pos, PT_item_list *opt_list, bool is_least_func)
      : Item_func_numhybrid(pos, opt_list),
        m_is_least_func(is_least_func),
        temporal_item(nullptr) {}

  longlong val_int() override;
  double val_real() override;
  my_decimal *val_decimal(my_decimal *) override;
  longlong int_op() override;
  double real_op() override;
  my_decimal *decimal_op(my_decimal *) override;
  String *str_op(String *) override;
  bool date_op(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override;
  bool time_op(MYSQL_TIME *ltime) override;
  bool resolve_type(THD *) override;
  void set_numeric_type() override {}
  enum Item_result result_type() const override { return hybrid_type; }

  /**
    Make CAST(LEAST_OR_GREATEST(datetime_expr, varchar_expr))
    return a number in format YYMMDDhhmmss.
  */
  enum Item_result cast_to_int_type() const override {
    return compare_as_dates() ? INT_RESULT : result_type();
  }

  /// Returns true if arguments to this function should be compared as dates.
  bool compare_as_dates() const {
    return temporal_item != nullptr &&
           is_temporal_type_with_date(temporal_item->data_type());
  }

  /// Returns true if at least one of the arguments was of temporal type.
  bool has_temporal_arg() const { return temporal_item; }

 private:
  /// True if LEAST function, false if GREATEST.
  const bool m_is_least_func;
  String m_string_buf;
  /*
    Used for determining whether one of the arguments is of temporal type and
    for converting arguments to a common output format if arguments are
    compared as dates and result type is character string. For example,
    LEAST('95-05-05', date '10-10-10') should return '1995-05-05', not
    '95-05-05'.
  */
  Item *temporal_item;
  /**
    Compare arguments as datetime values.

    @param value Pointer to which the datetime value of the winning argument
    is written.

    @return true if error, false otherwise.
  */
  bool cmp_datetimes(longlong *value);

  /**
    Compare arguments as time values.

    @param value Pointer to which the time value of the winning argument is
    written.

    @return true if error, false otherwise.
  */
  bool cmp_times(longlong *value);
};

class Item_func_min final : public Item_func_min_max {
 public:
  Item_func_min(const POS &pos, PT_item_list *opt_list)
      : Item_func_min_max(pos, opt_list, true) {}
  const char *func_name() const override { return "least"; }
  enum Functype functype() const override { return LEAST_FUNC; }
};

class Item_func_max final : public Item_func_min_max {
 public:
  Item_func_max(const POS &pos, PT_item_list *opt_list)
      : Item_func_min_max(pos, opt_list, false) {}
  const char *func_name() const override { return "greatest"; }
  enum Functype functype() const override { return GREATEST_FUNC; }
};

/*
  Objects of this class are used for ROLLUP queries to wrap up
  each constant item referred to in GROUP BY list.

  Before grouping the wrapped item could be considered constant, but after
  grouping it is not, as rollup adds NULL values, which can affect later
  phases like DISTINCT or windowing.
*/

class Item_func_rollup_const final : public Item_func {
 public:
  Item_func_rollup_const(Item *a) : Item_func(a) { item_name = a->item_name; }
  double val_real() override;
  longlong val_int() override;
  String *val_str(String *str) override;
  my_decimal *val_decimal(my_decimal *dec) override;
  bool val_json(Json_wrapper *result) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return (null_value = args[0]->get_date(ltime, fuzzydate));
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return (null_value = args[0]->get_time(ltime));
  }
  const char *func_name() const override { return "rollup_const"; }
  table_map used_tables() const override {
    /*
      If underlying item is non-constant, return its used_tables value.
      Otherwise ensure it is non-constant by returning RAND_TABLE_BIT.
    */
    return args[0]->used_tables() ? args[0]->used_tables() : RAND_TABLE_BIT;
  }
  Item_result result_type() const override { return args[0]->result_type(); }
  bool resolve_type(THD *) override {
    set_data_type_from_item(args[0]);

    // The item could be a NULL constant.
    null_value = args[0]->is_null();
    return false;
  }
};

class Item_func_length : public Item_int_func {
  String value;

 public:
  Item_func_length(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "length"; }
  bool resolve_type(THD *) override {
    max_length = 10;
    return false;
  }
};

class Item_func_bit_length final : public Item_func_length {
 public:
  Item_func_bit_length(const POS &pos, Item *a) : Item_func_length(pos, a) {}
  longlong val_int() override {
    DBUG_ASSERT(fixed);
    return Item_func_length::val_int() * 8;
  }
  const char *func_name() const override { return "bit_length"; }
};

class Item_func_char_length final : public Item_int_func {
  String value;

 public:
  Item_func_char_length(Item *a) : Item_int_func(a) {}
  Item_func_char_length(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "char_length"; }
  bool resolve_type(THD *) override {
    max_length = 10;
    return false;
  }
};

class Item_func_coercibility final : public Item_int_func {
 public:
  Item_func_coercibility(const POS &pos, Item *a) : Item_int_func(pos, a) {
    null_on_null = false;
  }
  longlong val_int() override;
  const char *func_name() const override { return "coercibility"; }
  bool resolve_type(THD *) override {
    max_length = 10;
    maybe_null = false;
    return false;
  }
};

class Item_func_locate : public Item_int_func {
  String value1, value2;
  DTCollation cmp_collation;

 public:
  Item_func_locate(Item *a, Item *b) : Item_int_func(a, b) {}
  Item_func_locate(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  Item_func_locate(const POS &pos, Item *a, Item *b, Item *c)
      : Item_int_func(pos, a, b, c) {}

  const char *func_name() const override { return "locate"; }
  longlong val_int() override;
  bool resolve_type(THD *thd) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
};

class Item_func_instr final : public Item_func_locate {
 public:
  Item_func_instr(const POS &pos, Item *a, Item *b)
      : Item_func_locate(pos, a, b) {}

  const char *func_name() const override { return "instr"; }
};

class Item_func_validate_password_strength final : public Item_int_func {
 public:
  Item_func_validate_password_strength(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override {
    return "validate_password_strength";
  }
  bool resolve_type(THD *) override {
    max_length = 10;
    maybe_null = true;
    return false;
  }
};

class Item_func_field final : public Item_int_func {
  String value, tmp;
  Item_result cmp_type;
  DTCollation cmp_collation;

 public:
  Item_func_field(const POS &pos, PT_item_list *opt_list)
      : Item_int_func(pos, opt_list) {}
  longlong val_int() override;
  const char *func_name() const override { return "field"; }
  bool resolve_type(THD *thd) override;
};

class Item_func_ascii final : public Item_int_func {
  String value;

 public:
  Item_func_ascii(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "ascii"; }
  bool resolve_type(THD *) override {
    max_length = 3;
    return false;
  }
};

class Item_func_ord final : public Item_int_func {
  String value;

 public:
  Item_func_ord(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "ord"; }
};

class Item_func_find_in_set final : public Item_int_func {
  String value, value2;
  uint enum_value;
  ulonglong enum_bit;
  DTCollation cmp_collation;

 public:
  Item_func_find_in_set(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b), enum_value(0) {}
  longlong val_int() override;
  const char *func_name() const override { return "find_in_set"; }
  bool resolve_type(THD *) override;
};

/* Base class for all bit functions: '~', '|', '^', '&', '>>', '<<' */

class Item_func_bit : public Item_func {
 protected:
  /// Stores the Item's result type. Can only be INT_RESULT or STRING_RESULT
  Item_result hybrid_type;
  /// Buffer storing the determined value
  String tmp_value;
  /**
     @returns true if the second argument should be of binary type for the
     result to be of binary type.
  */
  virtual bool binary_result_requires_binary_second_arg() const = 0;

 public:
  Item_func_bit(const POS &pos, Item *a, Item *b) : Item_func(pos, a, b) {}
  Item_func_bit(const POS &pos, Item *a) : Item_func(pos, a) {}

  bool resolve_type(THD *) override;
  enum Item_result result_type() const override { return hybrid_type; }

  longlong val_int() override;
  String *val_str(String *str) override;
  double val_real() override;
  my_decimal *val_decimal(my_decimal *decimal_value) override;

  void print(const THD *thd, String *str,
             enum_query_type query_type) const override {
    print_op(thd, str, query_type);
  }
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    if (hybrid_type == INT_RESULT)
      return get_date_from_int(ltime, fuzzydate);
    else
      return get_date_from_string(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    if (hybrid_type == INT_RESULT)
      return get_time_from_int(ltime);
    else
      return get_time_from_string(ltime);
  }

 private:
  /**
    @brief Performs the operation on integers to produce a result of type
    INT_RESULT.
    @return The result of the operation.
 */
  virtual longlong int_op() = 0;

  /**
    @brief Performs the operation on binary strings to produce a result of
    type STRING_RESULT.
    @return The result of the operation.
  */
  virtual String *str_op(String *) = 0;
};

/**
  Base class for all the bit functions that work with two binary
  arguments: '&', '|', '^'.
*/

class Item_func_bit_two_param : public Item_func_bit {
 protected:
  bool binary_result_requires_binary_second_arg() const { return true; }
  template <class Char_func, class Int_func>
  String *eval_str_op(String *, Char_func char_func, Int_func int_func);
  template <class Int_func>
  longlong eval_int_op(Int_func int_func);

 public:
  Item_func_bit_two_param(const POS &pos, Item *a, Item *b)
      : Item_func_bit(pos, a, b) {}
};

class Item_func_bit_or final : public Item_func_bit_two_param {
 public:
  Item_func_bit_or(const POS &pos, Item *a, Item *b)
      : Item_func_bit_two_param(pos, a, b) {}
  const char *func_name() const override { return "|"; }

 private:
  longlong int_op() override { return eval_int_op(std::bit_or<ulonglong>()); }
  String *str_op(String *str) override {
    return eval_str_op(str, std::bit_or<char>(), std::bit_or<ulonglong>());
  }
};

class Item_func_bit_and final : public Item_func_bit_two_param {
 public:
  Item_func_bit_and(const POS &pos, Item *a, Item *b)
      : Item_func_bit_two_param(pos, a, b) {}
  const char *func_name() const override { return "&"; }

 private:
  longlong int_op() override { return eval_int_op(std::bit_and<ulonglong>()); }
  String *str_op(String *str) override {
    return eval_str_op(str, std::bit_and<char>(), std::bit_and<ulonglong>());
  }
};

class Item_func_bit_xor final : public Item_func_bit_two_param {
 public:
  Item_func_bit_xor(const POS &pos, Item *a, Item *b)
      : Item_func_bit_two_param(pos, a, b) {}
  const char *func_name() const override { return "^"; }

 private:
  longlong int_op() override { return eval_int_op(std::bit_xor<ulonglong>()); }
  String *str_op(String *str) override {
    return eval_str_op(str, std::bit_xor<char>(), std::bit_xor<ulonglong>());
  }
};

class Item_func_bit_count final : public Item_int_func {
 public:
  Item_func_bit_count(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "bit_count"; }
  bool resolve_type(THD *) override {
    max_length = MAX_BIGINT_WIDTH + 1;
    return false;
  }
};

class Item_func_shift : public Item_func_bit {
 protected:
  bool binary_result_requires_binary_second_arg() const { return false; }
  template <bool to_left>
  longlong eval_int_op();
  template <bool to_left>
  String *eval_str_op(String *str);

 public:
  Item_func_shift(const POS &pos, Item *a, Item *b)
      : Item_func_bit(pos, a, b) {}
};

class Item_func_shift_left final : public Item_func_shift {
 public:
  Item_func_shift_left(const POS &pos, Item *a, Item *b)
      : Item_func_shift(pos, a, b) {}
  const char *func_name() const override { return "<<"; }

 private:
  longlong int_op() override { return eval_int_op<true>(); }
  String *str_op(String *str) override { return eval_str_op<true>(str); }
};

class Item_func_shift_right final : public Item_func_shift {
 public:
  Item_func_shift_right(const POS &pos, Item *a, Item *b)
      : Item_func_shift(pos, a, b) {}
  const char *func_name() const override { return ">>"; }

 private:
  longlong int_op() override { return eval_int_op<false>(); }
  String *str_op(String *str) override { return eval_str_op<false>(str); }
};

class Item_func_bit_neg final : public Item_func_bit {
 protected:
  bool binary_result_requires_binary_second_arg() const override {
    return false;
  }

 public:
  Item_func_bit_neg(const POS &pos, Item *a) : Item_func_bit(pos, a) {}
  const char *func_name() const override { return "~"; }
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override {
    Item_func::print(thd, str, query_type);
  }

 private:
  longlong int_op() override;
  String *str_op(String *str) override;
};

class Item_func_last_insert_id final : public Item_int_func {
  typedef Item_int_func super;

 public:
  Item_func_last_insert_id() : Item_int_func() {}
  explicit Item_func_last_insert_id(const POS &pos) : Item_int_func(pos) {}
  Item_func_last_insert_id(const POS &pos, Item *a) : Item_int_func(pos, a) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "last_insert_id"; }
  bool resolve_type(THD *) override {
    unsigned_flag = true;
    if (arg_count) max_length = args[0]->max_length;
    return false;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

class Item_func_benchmark final : public Item_int_func {
  typedef Item_int_func super;

 public:
  Item_func_benchmark(const POS &pos, Item *count_expr, Item *expr)
      : Item_int_func(pos, count_expr, expr) {}

  /// Ensure that "benchmark()" is never optimized away
  table_map get_initial_pseudo_tables() const override {
    return RAND_TABLE_BIT;
  }

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "benchmark"; }
  bool resolve_type(THD *) override {
    max_length = 1;
    maybe_null = true;
    return false;
  }
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

void item_func_sleep_init();
void item_func_sleep_free();

class Item_func_sleep final : public Item_int_func {
  typedef Item_int_func super;

 public:
  Item_func_sleep(const POS &pos, Item *a) : Item_int_func(pos, a) {}

  bool itemize(Parse_context *pc, Item **res) override;
  const char *func_name() const override { return "sleep"; }
  /**
    This function is non-deterministic and hence depends on the
    'RAND' pseudo-table.

    @retval RAND_TABLE_BIT
  */
  table_map get_initial_pseudo_tables() const override {
    return RAND_TABLE_BIT;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
  longlong val_int() override;
};

class Item_udf_func : public Item_func {
  typedef Item_func super;

 protected:
  udf_handler udf;
  bool is_expensive_processor(uchar *) override { return true; }

 public:
  Item_udf_func(const POS &pos, udf_func *udf_arg, PT_item_list *opt_list)
      : Item_func(pos, opt_list), udf(udf_arg) {
    null_on_null = false;
  }

  bool itemize(Parse_context *pc, Item **res) override;
  const char *func_name() const override { return udf.name(); }
  enum Functype functype() const override { return UDF_FUNC; }
  bool fix_fields(THD *thd, Item **) override {
    DBUG_ASSERT(fixed == 0);
    bool res = udf.fix_fields(thd, this, arg_count, args);
    used_tables_cache = udf.used_tables_cache;
    fixed = true;
    return res;
  }
  void update_used_tables() override {
    /*
      TODO: Make a member in UDF_INIT and return if a UDF is deterministic or
      not.
      Currently UDF_INIT has a member (const_item) that is an in/out
      parameter to the init() call.
      The code in udf_handler::fix_fields also duplicates the arguments
      handling code in Item_func::fix_fields().

      The lack of information if a UDF is deterministic makes writing
      a correct update_used_tables() for UDFs impossible.
      One solution to this would be :
       - Add a is_deterministic member of UDF_INIT
       - (optionally) deprecate the const_item member of UDF_INIT
       - Take away the duplicate code from udf_handler::fix_fields() and
         make Item_udf_func call Item_func::fix_fields() to process its
         arguments as for any other function.
       - Store the deterministic flag returned by <udf>_init into the
       udf_handler.
       - Don't implement Item_udf_func::fix_fields, implement
       Item_udf_func::resolve_type() instead (similar to non-UDF functions).
       - Override Item_func::update_used_tables to call
       Item_func::update_used_tables() and add a RAND_TABLE_BIT to the
       result of Item_func::update_used_tables() if the UDF is
       non-deterministic.
       - (optionally) rename RAND_TABLE_BIT to NONDETERMINISTIC_BIT to
       better describe its usage.

      The above would require a change of the UDF API.
      Until that change is done here's how the current code works:
      We call Item_func::update_used_tables() only when we know that
      the function depends on real non-const tables and is deterministic.
      This can be done only because we know that the optimizer will
      call update_used_tables() only when there's possibly a new const
      table. So update_used_tables() can only make a Item_func more
      constant than it is currently.
      That's why we don't need to do anything if a function is guaranteed
      to return non-constant (it's non-deterministic) or is already a
      const.
    */
    if ((used_tables_cache & ~PSEUDO_TABLE_BITS) &&
        !(used_tables_cache & RAND_TABLE_BIT))
      Item_func::update_used_tables();
  }
  void cleanup() override;
  Item_result result_type() const override { return udf.result_type(); }
  bool is_expensive() override { return true; }
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;

  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }

 protected:
  bool may_have_named_parameters() const override { return true; }
};

class Item_func_udf_float final : public Item_udf_func {
 public:
  Item_func_udf_float(const POS &pos, udf_func *udf_arg, PT_item_list *opt_list)
      : Item_udf_func(pos, udf_arg, opt_list) {}
  longlong val_int() override {
    DBUG_ASSERT(fixed == 1);
    return (longlong)rint(Item_func_udf_float::val_real());
  }
  my_decimal *val_decimal(my_decimal *dec_buf) override {
    double res = val_real();
    if (null_value) return NULL;
    double2my_decimal(E_DEC_FATAL_ERROR, res, dec_buf);
    return dec_buf;
  }
  double val_real() override;
  String *val_str(String *str) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_real(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_real(ltime);
  }
  bool resolve_type(THD *) override {
    set_data_type_double();
    fix_num_length_and_dec();  // @todo - needed?
    return false;
  }
};

class Item_func_udf_int final : public Item_udf_func {
 public:
  Item_func_udf_int(const POS &pos, udf_func *udf_arg, PT_item_list *opt_list)
      : Item_udf_func(pos, udf_arg, opt_list) {}
  longlong val_int() override;
  double val_real() override {
    return static_cast<double>(Item_func_udf_int::val_int());
  }
  String *val_str(String *str) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_int(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override { return get_time_from_int(ltime); }
  enum Item_result result_type() const override { return INT_RESULT; }
  bool resolve_type(THD *) override {
    set_data_type_longlong();
    return false;
  }
};

class Item_func_udf_decimal : public Item_udf_func {
 public:
  Item_func_udf_decimal(const POS &pos, udf_func *udf_arg,
                        PT_item_list *opt_list)
      : Item_udf_func(pos, udf_arg, opt_list) {}
  longlong val_int() override;
  double val_real() override;
  my_decimal *val_decimal(my_decimal *) override;
  String *val_str(String *str) override;
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_decimal(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_decimal(ltime);
  }
  enum Item_result result_type() const override { return DECIMAL_RESULT; }
  bool resolve_type(THD *thd) override;
};

class Item_func_udf_str : public Item_udf_func {
 public:
  Item_func_udf_str(const POS &pos, udf_func *udf_arg, PT_item_list *opt_list)
      : Item_udf_func(pos, udf_arg, opt_list) {}

  String *val_str(String *) override;
  double val_real() override {
    int err_not_used;
    const char *end_not_used;
    String *res;
    res = val_str(&str_value);
    return res ? my_strntod(res->charset(), res->ptr(), res->length(),
                            &end_not_used, &err_not_used)
               : 0.0;
  }
  longlong val_int() override {
    int err_not_used;
    String *res;
    res = val_str(&str_value);
    return res ? my_strntoll(res->charset(), res->ptr(), res->length(), 10,
                             nullptr, &err_not_used)
               : (longlong)0;
  }
  my_decimal *val_decimal(my_decimal *dec_buf) override {
    String *res = val_str(&str_value);
    if (!res) return NULL;
    string2my_decimal(E_DEC_FATAL_ERROR, res, dec_buf);
    return dec_buf;
  }
  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_string(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_string(ltime);
  }
  enum Item_result result_type() const override { return STRING_RESULT; }
  bool resolve_type(THD *thd) override;
};

void mysql_ull_cleanup(THD *thd);
void mysql_ull_set_explicit_lock_duration(THD *thd);

class Item_func_get_lock final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_func_get_lock(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "get_lock"; }
  bool resolve_type(THD *) override {
    max_length = 1;
    maybe_null = true;
    return false;
  }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
  uint decimal_precision() const override { return max_length; }
};

class Item_func_release_lock final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_func_release_lock(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  bool itemize(Parse_context *pc, Item **res) override;

  longlong val_int() override;
  const char *func_name() const override { return "release_lock"; }
  bool resolve_type(THD *) override {
    max_length = 1;
    maybe_null = true;
    return false;
  }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
  uint decimal_precision() const override { return max_length; }
};

class Item_func_release_all_locks final : public Item_int_func {
  typedef Item_int_func super;

 public:
  explicit Item_func_release_all_locks(const POS &pos) : Item_int_func(pos) {}
  bool itemize(Parse_context *pc, Item **res) override;

  longlong val_int() override;
  const char *func_name() const override { return "release_all_locks"; }
  bool resolve_type(THD *) override {
    unsigned_flag = true;
    return false;
  }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

/* replication functions */

class Item_master_pos_wait final : public Item_int_func {
  typedef Item_int_func super;
  String value;

 public:
  Item_master_pos_wait(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  Item_master_pos_wait(const POS &pos, Item *a, Item *b, Item *c)
      : Item_int_func(pos, a, b, c) {}
  Item_master_pos_wait(const POS &pos, Item *a, Item *b, Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "master_pos_wait"; }
  bool resolve_type(THD *) override {
    max_length = 21;
    maybe_null = true;
    return false;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

/**
  This class is used for implementing the new wait_for_executed_gtid_set
  function and the functions related to them. This new function is independent
  of the slave threads.
*/
class Item_wait_for_executed_gtid_set final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_wait_for_executed_gtid_set(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  Item_wait_for_executed_gtid_set(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override {
    return "wait_for_executed_gtid_set";
  }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_master_gtid_set_wait final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_master_gtid_set_wait(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  Item_master_gtid_set_wait(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  Item_master_gtid_set_wait(const POS &pos, Item *a, Item *b, Item *c)
      : Item_int_func(pos, a, b, c) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override {
    return "wait_until_sql_thread_after_gtids";
  }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_func_gtid_subset final : public Item_int_func {
  String buf1;
  String buf2;

 public:
  Item_func_gtid_subset(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  longlong val_int() override;
  const char *func_name() const override { return "gtid_subset"; }
  bool resolve_type(THD *) override {
    maybe_null = false;
    return false;
  }
  bool is_bool_func() const override { return true; }
};

/**
 Internal functions used by INFORMATION_SCHEMA implementation to check
 if user have access to given database/table/column.
*/

class Item_func_can_access_database : public Item_int_func {
 public:
  Item_func_can_access_database(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "can_access_database"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_table : public Item_int_func {
 public:
  Item_func_can_access_table(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  longlong val_int() override;
  const char *func_name() const override { return "can_access_table"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_trigger : public Item_int_func {
 public:
  Item_func_can_access_trigger(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  longlong val_int();
  const char *func_name() const { return "can_access_trigger"; }
  bool resolve_type(THD *) {
    max_length = 4;
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_routine : public Item_int_func {
 public:
  Item_func_can_access_routine(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  longlong val_int();
  const char *func_name() const { return "can_access_routine"; }
  bool resolve_type(THD *) {
    max_length = 4;
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_event : public Item_int_func {
 public:
  Item_func_can_access_event(const POS &pos, Item *a) : Item_int_func(pos, a) {}
  longlong val_int();
  const char *func_name() const { return "can_access_event"; }
  bool resolve_type(THD *) {
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_resource_group : public Item_int_func {
 public:
  Item_func_can_access_resource_group(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  longlong val_int();
  const char *func_name() const { return "can_access_resource_group"; }
  bool resolve_type(THD *) {
    max_length = 1;  // Function can return 0 or 1.
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_view : public Item_int_func {
 public:
  Item_func_can_access_view(const POS &pos, Item *a, Item *b, Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}
  longlong val_int() override;
  const char *func_name() const override { return "can_access_view"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_func_can_access_column : public Item_int_func {
 public:
  Item_func_can_access_column(const POS &pos, Item *a, Item *b, Item *c)
      : Item_int_func(pos, a, b, c) {}
  longlong val_int() override;
  const char *func_name() const override { return "can_access_column"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    return false;
  }
};

class Item_func_is_visible_dd_object : public Item_int_func {
 public:
  Item_func_is_visible_dd_object(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  Item_func_is_visible_dd_object(const POS &pos, Item *a, Item *b)
      : Item_int_func(pos, a, b) {}
  longlong val_int();
  const char *func_name() const { return "is_visible_dd_object"; }
  bool resolve_type(THD *) {
    max_length = 1;
    maybe_null = true;
    return false;
  }
};

class Item_func_internal_table_rows : public Item_int_func {
 public:
  Item_func_internal_table_rows(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_table_rows"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_avg_row_length : public Item_int_func {
 public:
  Item_func_internal_avg_row_length(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_avg_row_length"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_data_length : public Item_int_func {
 public:
  Item_func_internal_data_length(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_data_length"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_max_data_length : public Item_int_func {
 public:
  Item_func_internal_max_data_length(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_max_data_length"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_index_length : public Item_int_func {
 public:
  Item_func_internal_index_length(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_index_length"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_data_free : public Item_int_func {
 public:
  Item_func_internal_data_free(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_data_free"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_auto_increment : public Item_int_func {
 public:
  Item_func_internal_auto_increment(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_auto_increment"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    unsigned_flag = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_checksum : public Item_int_func {
 public:
  Item_func_internal_checksum(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_checksum"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_keys_disabled : public Item_int_func {
 public:
  Item_func_internal_keys_disabled(const POS &pos, Item *a)
      : Item_int_func(pos, a) {}
  longlong val_int() override;
  const char *func_name() const override { return "internal_keys_disabled"; }
  bool resolve_type(THD *) override {
    maybe_null = false;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_index_column_cardinality : public Item_int_func {
 public:
  Item_func_internal_index_column_cardinality(const POS &pos,
                                              PT_item_list *list)
      : Item_int_func(pos, list) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override {
    return "internal_index_column_cardinality";
  }
  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_dd_char_length final : public Item_int_func {
 public:
  Item_func_internal_dd_char_length(const POS &pos, Item *a, Item *b, Item *c,
                                    Item *d)
      : Item_int_func(pos, a, b, c, d) {}
  longlong val_int() override;
  const char *func_name() const override { return "internal_dd_char_length"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_get_view_warning_or_error final
    : public Item_int_func {
 public:
  Item_func_internal_get_view_warning_or_error(const POS &pos,
                                               PT_item_list *list)
      : Item_int_func(pos, list) {}
  longlong val_int() override;
  const char *func_name() const override {
    return "internal_get_view_warning_or_error";
  }
  bool resolve_type(THD *) override {
    max_length = 1;
    maybe_null = false;
    null_on_null = false;
    return false;
  }
};

class Item_func_get_dd_index_sub_part_length final : public Item_int_func {
 public:
  Item_func_get_dd_index_sub_part_length(const POS &pos, PT_item_list *list)
      : Item_int_func(pos, list) {}
  longlong val_int() override;
  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
  const char *func_name() const override {
    return "get_dd_index_sub_part_length";
  }
};

class Item_func_internal_tablespace_id : public Item_int_func {
 public:
  Item_func_internal_tablespace_id(const POS &pos, Item *a, Item *b, Item *c,
                                   Item *d)
      : Item_int_func(pos, a, b, c, d) {}
  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;
  const char *func_name() const override { return "internal_tablespace_id"; }
  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_logfile_group_number
    : public Item_int_func {
 public:
  Item_func_internal_tablespace_logfile_group_number(const POS &pos, Item *a,
                                                     Item *b, Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_logfile_group_number";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_free_extents : public Item_int_func {
 public:
  Item_func_internal_tablespace_free_extents(const POS &pos, Item *a, Item *b,
                                             Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_free_extents";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_total_extents : public Item_int_func {
 public:
  Item_func_internal_tablespace_total_extents(const POS &pos, Item *a, Item *b,
                                              Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_total_extents";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_extent_size : public Item_int_func {
 public:
  Item_func_internal_tablespace_extent_size(const POS &pos, Item *a, Item *b,
                                            Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_extent_size";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_initial_size : public Item_int_func {
 public:
  Item_func_internal_tablespace_initial_size(const POS &pos, Item *a, Item *b,
                                             Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_initial_size";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_maximum_size : public Item_int_func {
 public:
  Item_func_internal_tablespace_maximum_size(const POS &pos, Item *a, Item *b,
                                             Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_maximum_size";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_autoextend_size : public Item_int_func {
 public:
  Item_func_internal_tablespace_autoextend_size(const POS &pos, Item *a,
                                                Item *b, Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_autoextend_size";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_version : public Item_int_func {
 public:
  Item_func_internal_tablespace_version(const POS &pos, Item *a, Item *b,
                                        Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_version";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

class Item_func_internal_tablespace_data_free : public Item_int_func {
 public:
  Item_func_internal_tablespace_data_free(const POS &pos, Item *a, Item *b,
                                          Item *c, Item *d)
      : Item_int_func(pos, a, b, c, d) {}

  enum Functype functype() const override { return DD_INTERNAL_FUNC; }
  longlong val_int() override;

  const char *func_name() const override {
    return "internal_tablespace_data_free";
  }

  bool resolve_type(THD *) override {
    maybe_null = true;
    null_on_null = false;
    return false;
  }
};

/**
  Common class for:
    Item_func_get_system_var
    Item_func_get_user_var
    Item_func_set_user_var
*/
class Item_var_func : public Item_func {
 public:
  Item_var_func() : Item_func() {}
  explicit Item_var_func(const POS &pos) : Item_func(pos) {}

  Item_var_func(THD *thd, Item_var_func *item) : Item_func(thd, item) {}

  Item_var_func(Item *a) : Item_func(a) {}
  Item_var_func(const POS &pos, Item *a) : Item_func(pos, a) {}

  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    return get_date_from_non_temporal(ltime, fuzzydate);
  }
  bool get_time(MYSQL_TIME *ltime) override {
    return get_time_from_non_temporal(ltime);
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->err_code = (func_arg->source == VGS_CHECK_CONSTRAINT)
                             ? ER_CHECK_CONSTRAINT_VARIABLES
                             : ER_DEFAULT_VAL_GENERATED_VARIABLES;
    return true;
  }
};

/* Handling of user definable variables */

// this is needed for user_vars hash
class user_var_entry {
  static const size_t extra_size = sizeof(double);
  char *m_ptr;         // Value
  size_t m_length;     // Value length
  Item_result m_type;  // Value type
  THD *m_owner;

  void reset_value() {
    m_ptr = NULL;
    m_length = 0;
  }
  void set_value(char *value, size_t length) {
    m_ptr = value;
    m_length = length;
  }

  /**
    Position inside a user_var_entry where small values are stored:
    double values, longlong values and string values with length
    up to extra_size (should be 8 bytes on all platforms).
    String values with length longer than 8 are stored in a separate
    memory buffer, which is allocated when needed using the method realloc().
  */
  char *internal_buffer_ptr() {
    return pointer_cast<char *>(this) + ALIGN_SIZE(sizeof(user_var_entry));
  }

  /**
    Position inside a user_var_entry where a null-terminates array
    of characters representing the variable name is stored.
  */
  char *name_ptr() { return internal_buffer_ptr() + extra_size; }

  /**
    Initialize m_ptr to the internal buffer (if the value is small enough),
    or allocate a separate buffer.
    @param length - length of the value to be stored.
  */
  bool mem_realloc(size_t length);

  /**
    Check if m_ptr point to an external buffer previously alloced by realloc().
    @retval true  - an external buffer is alloced.
    @retval false - m_ptr is null, or points to the internal buffer.
  */
  bool alloced() { return m_ptr && m_ptr != internal_buffer_ptr(); }

  /**
    Free the external value buffer, if it's allocated.
  */
  void free_value() {
    if (alloced()) my_free(m_ptr);
  }

  /**
    Copy the array of characters from the given name into the internal
    name buffer and initialize entry_name to point to it.
  */
  void copy_name(const Simple_cstring &name) {
    name.strcpy(name_ptr());
    entry_name = Name_string(name_ptr(), name.length());
  }

  /**
    Initialize all members

    @param thd    Current session.
    @param name    Name of the user_var_entry instance.
    @param cs      charset information of the user_var_entry instance.
  */
  void init(THD *thd, const Simple_cstring &name, const CHARSET_INFO *cs);

  /**
    Store a value of the given type into a user_var_entry instance.
    @param from    Value
    @param length  Size of the value
    @param type    type
    @return
    @retval        false on success
    @retval        true on memory allocation error
  */
  bool store(const void *from, size_t length, Item_result type);

  /**
    Assert the user variable is locked.
    This is debug code only.
    The thread LOCK_thd_data mutex protects:
    - the thd->user_vars hash itself
    - the values in the user variable itself.
    The protection is required for monitoring,
    as a different thread can inspect this session
    user variables, on a live session.
  */
  void assert_locked() const;

 public:
  user_var_entry() {} /* Remove gcc warning */

  Simple_cstring entry_name;  // Variable name
  DTCollation collation;      // Collation with attributes
  query_id_t update_query_id, used_query_id;
  bool unsigned_flag;  // true if unsigned, false if signed

  /**
    Store a value of the given type and attributes (collation, sign)
    into a user_var_entry instance.
    @param ptr          Value
    @param length       Size of the value
    @param type         type
    @param cs           Character set and collation of the value
    @param dv           Collation derivation of the value
    @param unsigned_arg Signess of the value
    @return
    @retval        false on success
    @retval        true on memory allocation error
  */
  bool store(const void *ptr, size_t length, Item_result type,
             const CHARSET_INFO *cs, Derivation dv, bool unsigned_arg);
  /**
    Set type of to the given value.
    @param type  Data type.
  */
  void set_type(Item_result type) {
    assert_locked();
    m_type = type;
  }
  /**
    Set value to NULL
    @param type  Data type.
  */

  void set_null_value(Item_result type) {
    assert_locked();
    free_value();
    reset_value();
    m_type = type;
  }

  /**
    Allocates and initializes a user variable instance.

    @param thd    Current session.
    @param name   Name of the variable.
    @param cs     Charset of the variable.

    @return Address of the allocated and initialized user_var_entry instance.
    @retval NULL On allocation error.
  */
  static user_var_entry *create(THD *thd, const Name_string &name,
                                const CHARSET_INFO *cs);

  /**
    Free all memory used by a user_var_entry instance
    previously created by create().
  */
  void destroy() {
    assert_locked();
    free_value();   // Free the external value buffer
    my_free(this);  // Free the instance itself
  }

  void lock();
  void unlock();

  /* Routines to access the value and its type */
  const char *ptr() const { return m_ptr; }
  size_t length() const { return m_length; }
  Item_result type() const { return m_type; }
  /* Item-alike routines to access the value */
  double val_real(bool *null_value) const;
  longlong val_int(bool *null_value) const;
  String *val_str(bool *null_value, String *str, uint decimals) const;
  my_decimal *val_decimal(bool *null_value, my_decimal *result) const;
};

class Item_func_set_user_var : public Item_var_func {
  enum Item_result cached_result_type;
  user_var_entry *entry;
  /*
    The entry_thread_id variable is used:
    1) to skip unnecessary updates of the entry field (see above);
    2) to reset the entry field that was initialized in the other thread
       (for example, an item tree of a trigger that updates user variables
       may be shared between several connections, and the entry_thread_id field
       prevents updates of one connection user variables from a concurrent
       connection calling the same trigger that initially updated some
       user variable it the first connection context).
  */
  my_thread_id entry_thread_id;
  /**
    Delayed setting of non-constness.

    Normally, Item_func_get_user_var objects are tagged as not const
    when Item_func_set_user_var::fix_fields() is called for the same
    variable in the same query. If delayed_non_constness is set, the
    tagging is delayed until the variable is actually set. This means
    that Item_func_get_user_var objects will still be treated as a
    constant by the optimizer and executor until the variable is
    actually changed.

    @see select_dumpvar::send_data().
   */
  bool delayed_non_constness;
  String value;
  my_decimal decimal_buff;
  bool null_item;
  union {
    longlong vint;
    double vreal;
    String *vstr;
    my_decimal *vdec;
  } save_result;

 public:
  Name_string name;  // keep it public

  Item_func_set_user_var(Name_string a, Item *b, bool delayed)
      : Item_var_func(b),
        cached_result_type(INT_RESULT),
        entry(NULL),
        entry_thread_id(0),
        delayed_non_constness(delayed),
        name(a) {}
  Item_func_set_user_var(const POS &pos, Name_string a, Item *b, bool delayed)
      : Item_var_func(pos, b),
        cached_result_type(INT_RESULT),
        entry(NULL),
        entry_thread_id(0),
        delayed_non_constness(delayed),
        name(a) {}

  Item_func_set_user_var(THD *thd, Item_func_set_user_var *item)
      : Item_var_func(thd, item),
        cached_result_type(item->cached_result_type),
        entry(item->entry),
        entry_thread_id(item->entry_thread_id),
        delayed_non_constness(item->delayed_non_constness),
        value(item->value),
        decimal_buff(item->decimal_buff),
        null_item(item->null_item),
        save_result(item->save_result),
        name(item->name) {}
  enum Functype functype() const override { return SUSERVAR_FUNC; }
  double val_real() override;
  longlong val_int() override;
  String *val_str(String *str) override;
  my_decimal *val_decimal(my_decimal *) override;
  bool update_hash(const void *ptr, uint length, enum Item_result type,
                   const CHARSET_INFO *cs, Derivation dv, bool unsigned_arg);
  bool send(Protocol *protocol, String *str_arg) override;
  void make_field(Send_field *tmp_field) override;
  bool check(bool use_result_field);
  void save_item_result(Item *item);
  bool update();
  enum Item_result result_type() const override { return cached_result_type; }
  bool fix_fields(THD *thd, Item **ref) override;
  bool resolve_type(THD *) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  void print_assignment(const THD *thd, String *str,
                        enum_query_type query_type) const;
  const char *func_name() const override { return "set_user_var"; }

  type_conversion_status save_in_field(Field *field, bool no_conversions,
                                       bool can_use_result_field);

  void save_org_in_field(Field *field) override {
    save_in_field(field, true, false);
  }

  bool set_entry(THD *thd, bool create_if_not_exists);
  void cleanup() override;

 protected:
  type_conversion_status save_in_field_inner(Field *field,
                                             bool no_conversions) override {
    return save_in_field(field, no_conversions, true);
  }
};

class Item_func_get_user_var : public Item_var_func,
                               private Settable_routine_parameter {
  user_var_entry *var_entry;
  Item_result m_cached_result_type;

 public:
  Name_string name;  // keep it public

  Item_func_get_user_var(Name_string a)
      : Item_var_func(), m_cached_result_type(STRING_RESULT), name(a) {}
  Item_func_get_user_var(const POS &pos, Name_string a)
      : Item_var_func(pos), m_cached_result_type(STRING_RESULT), name(a) {}

  enum Functype functype() const override { return GUSERVAR_FUNC; }
  double val_real() override;
  longlong val_int() override;
  my_decimal *val_decimal(my_decimal *) override;
  String *val_str(String *str) override;
  bool resolve_type(THD *) override;
  void update_used_tables() override {}  // Keep existing used tables
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  enum Item_result result_type() const override;
  /*
    We must always return variables as strings to guard against selects of type
    select @t1:=1,@t1,@t:="hello",@t from foo where (@t1:= t2.b)
  */
  const char *func_name() const override { return "get_user_var"; }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool eq(const Item *item, bool binary_cmp) const override;

 private:
  bool set_value(THD *thd, sp_rcontext *ctx, Item **it) override;

 public:
  Settable_routine_parameter *get_settable_routine_parameter() override {
    return this;
  }
};

/*
  This item represents user variable used as out parameter (e.g in LOAD DATA),
  and it is supposed to be used only for this purprose. So it is simplified
  a lot. Actually you should never obtain its value.

  The only two reasons for this thing being an Item is possibility to store it
  in List<Item> and desire to place this code somewhere near other functions
  working with user variables.
*/
class Item_user_var_as_out_param : public Item {
  Name_string name;
  user_var_entry *entry;

 public:
  Item_user_var_as_out_param(const POS &pos, Name_string a)
      : Item(pos), name(a) {
    item_name.copy(a);
  }
  /* We should return something different from FIELD_ITEM here */
  enum Type type() const override { return STRING_ITEM; }
  double val_real() override;
  longlong val_int() override;
  String *val_str(String *str) override;
  my_decimal *val_decimal(my_decimal *decimal_buffer) override;
  bool get_date(MYSQL_TIME *, my_time_flags_t) override {
    DBUG_ASSERT(0);
    return true;
  }
  bool get_time(MYSQL_TIME *) override {
    DBUG_ASSERT(0);
    return true;
  }

  /* fix_fields() binds variable name with its entry structure */
  bool fix_fields(THD *thd, Item **ref) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  void set_null_value(const CHARSET_INFO *cs);
  void set_value(const char *str, size_t length, const CHARSET_INFO *cs);
};

/* A system variable */

#define GET_SYS_VAR_CACHE_LONG 1
#define GET_SYS_VAR_CACHE_DOUBLE 2
#define GET_SYS_VAR_CACHE_STRING 4

class Item_func_get_system_var;

/** Class to log audit event MYSQL_AUDIT_GLOBAL_VARIABLE_GET. */
class Audit_global_variable_get_event {
 public:
  Audit_global_variable_get_event(THD *thd, Item_func_get_system_var *item,
                                  uchar cache_type);
  ~Audit_global_variable_get_event();

 private:
  // Thread handle.
  THD *m_thd;

  // Item_func_get_system_var instance.
  Item_func_get_system_var *m_item;

  /*
    Value conversion type.
    Depending on the value conversion type GET_SYS_VAR_CACHE_* is stored in this
    member while creating the object. While converting value if there are any
    intermediate conversions in the same query then this member is used to avoid
    auditing more than once.
  */
  uchar m_val_type;

  /*
    To indicate event auditing is required or not. Event is not audited if
      * scope of the variable is *not* GLOBAL.
      * or the event is already audited for global variable for the same query.
  */
  bool m_audit_event;
};

class Item_func_get_system_var final : public Item_var_func {
  sys_var *var;
  enum_var_type var_type, orig_var_type;
  LEX_STRING component;
  longlong cached_llval;
  double cached_dval;
  String cached_strval;
  bool cached_null_value;
  query_id_t used_query_id;
  uchar cache_present;

  template <typename T>
  longlong get_sys_var_safe(THD *thd);

  friend class Audit_global_variable_get_event;

 public:
  Item_func_get_system_var(sys_var *var_arg, enum_var_type var_type_arg,
                           LEX_STRING *component_arg, const char *name_arg,
                           size_t name_len_arg);
  enum Functype functype() const override { return GSYSVAR_FUNC; }
  bool resolve_type(THD *) override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;
  table_map used_tables() const override { return 0; }
  bool is_non_const_over_literals(uchar *) override { return true; }
  enum Item_result result_type() const override;
  double val_real() override;
  longlong val_int() override;
  String *val_str(String *) override;
  my_decimal *val_decimal(my_decimal *dec_buf) override {
    return val_decimal_from_real(dec_buf);
  }
  /* TODO: fix to support views */
  const char *func_name() const override { return "get_system_var"; }
  /**
    Indicates whether this system variable is written to the binlog or not.

    Variables are written to the binlog as part of "status_vars" in
    Query_log_event, as an Intvar_log_event, or a Rand_log_event.

    @return true if the variable is written to the binlog, false otherwise.
  */
  bool is_written_to_binlog();
  bool eq(const Item *item, bool binary_cmp) const override;

  void cleanup() override;
};

class JOIN;

class Item_func_match final : public Item_real_func {
  typedef Item_real_func super;

 public:
  Item *against;
  uint key, flags;
  bool join_key;
  DTCollation cmp_collation;
  FT_INFO *ft_handler;
  TABLE_LIST *table_ref;
  /**
     Master item means that if identical items are present in the
     statement, they use the same FT handler. FT handler is initialized
     only for master item and slave items just use it. FT hints initialized
     for master only, slave items HINTS are not accessed.
  */
  Item_func_match *master;
  Item *concat_ws;      // Item_func_concat_ws
  String value;         // value of concat_ws
  String search_value;  // key_item()'s value converted to cmp_collation

  /**
    Constructor for Item_func_match class.

    @param pos         Position of token in the parser.
    @param a           List of arguments.
    @param against_arg Expression to match against.
    @param b           FT Flags.
  */
  Item_func_match(const POS &pos, PT_item_list *a, Item *against_arg, uint b)
      : Item_real_func(pos, a),
        against(against_arg),
        key(0),
        flags(b),
        join_key(false),
        ft_handler(NULL),
        table_ref(NULL),
        master(NULL),
        concat_ws(NULL),
        hints(NULL),
        simple_expression(false) {
    null_on_null = false;
  }

  bool itemize(Parse_context *pc, Item **res) override;

  void cleanup() override {
    DBUG_ENTER("Item_func_match::cleanup");
    Item_real_func::cleanup();
    if (!master && ft_handler) {
      ft_handler->please->close_search(ft_handler);
      destroy(hints);
    }
    ft_handler = NULL;
    concat_ws = NULL;
    table_ref = NULL;  // required by Item_func_match::eq()
    master = NULL;
    DBUG_VOID_RETURN;
  }
  Item *key_item() const override { return against; }
  enum Functype functype() const override { return FT_FUNC; }
  const char *func_name() const override { return "match"; }
  void update_used_tables() override {}
  bool fix_fields(THD *thd, Item **ref) override;
  bool eq(const Item *, bool binary_cmp) const override;
  /* The following should be safe, even if we compare doubles */
  longlong val_int() override {
    DBUG_ASSERT(fixed);
    return val_real() != 0.0;
  }
  double val_real() override;
  void print(const THD *thd, String *str,
             enum_query_type query_type) const override;

  bool fix_index(const THD *thd);
  bool init_search(THD *thd);
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }

  /**
     Get number of matching rows from FT handler.

     @note Requires that FT handler supports the extended API

     @return Number of matching rows in result
   */
  ulonglong get_count() {
    DBUG_ASSERT(ft_handler);
    DBUG_ASSERT(table_ref->table->file->ha_table_flags() & HA_CAN_FULLTEXT_EXT);

    return ((FT_INFO_EXT *)ft_handler)
        ->could_you->count_matches((FT_INFO_EXT *)ft_handler);
  }

  /**
     Check whether FT result is ordered on rank

     @return true if result is ordered
     @return false otherwise
   */
  bool ordered_result() {
    DBUG_ASSERT(!master);
    if (hints->get_flags() & FT_SORTED) return true;

    if ((table_ref->table->file->ha_table_flags() & HA_CAN_FULLTEXT_EXT) == 0)
      return false;

    DBUG_ASSERT(ft_handler);
    return ((FT_INFO_EXT *)ft_handler)->could_you->get_flags() &
           FTS_ORDERED_RESULT;
  }

  /**
     Check whether FT result contains the document ID

     @return true if document ID is available
     @return false otherwise
   */
  bool docid_in_result() {
    DBUG_ASSERT(ft_handler);

    if ((table_ref->table->file->ha_table_flags() & HA_CAN_FULLTEXT_EXT) == 0)
      return false;

    return ((FT_INFO_EXT *)ft_handler)->could_you->get_flags() &
           FTS_DOCID_IN_RESULT;
  }

  float get_filtering_effect(THD *thd, table_map filter_for_table,
                             table_map read_tables,
                             const MY_BITMAP *fields_to_ignore,
                             double rows_in_table) override;

  /**
     Returns master MATCH function.

     @return pointer to master MATCH function.
  */
  Item_func_match *get_master() {
    if (master) return master->get_master();
    return this;
  }

  /**
     Set master MATCH function and adjust used_in_where_only value.

     @param item item for which master should be set.
  */
  void set_master(Item_func_match *item) {
    used_in_where_only &= item->used_in_where_only;
    item->master = this;
  }

  /**
     Returns pointer to Ft_hints object belonging to master MATCH function.

     @return pointer to Ft_hints object
  */
  Ft_hints *get_hints() {
    DBUG_ASSERT(!master);
    return hints;
  }

  /**
     Set comparison operation type and and value for master MATCH function.

     @param type   comparison operation type
     @param value_arg  comparison operation value
  */
  void set_hints_op(enum ft_operation type, double value_arg) {
    DBUG_ASSERT(!master);
    hints->set_hint_op(type, value_arg);
  }

  /**
     Set FT hints.
  */
  void set_hints(JOIN *join, uint ft_flag, ha_rows ft_limit, bool no_cond);

  /**
     Check if ranking is not needed.

     @return true if ranking is not needed
     @return false otherwise
  */
  bool can_skip_ranking() {
    DBUG_ASSERT(!master);
    return (!(hints->get_flags() & FT_SORTED) &&  // FT_SORTED is no set
            used_in_where_only &&                 // MATCH result is not used
                                                  // in expression
            hints->get_op_type() == FT_OP_NO);    // MATCH is single function
  }

  /**
     Set flag that the function is a simple expression.

     @param val true if the function is a simple expression, false otherwise
  */
  void set_simple_expression(bool val) {
    DBUG_ASSERT(!master);
    simple_expression = val;
  }

  /**
     Check if this MATCH function is a simple expression in WHERE condition.

     @return true if simple expression
     @return false otherwise
  */
  bool is_simple_expression() {
    DBUG_ASSERT(!master);
    return simple_expression;
  }

 private:
  /**
     Fulltext index hints, initialized for master MATCH function only.
  */
  Ft_hints *hints;
  /**
     Flag is true when MATCH function is used as a simple expression in
     WHERE condition, i.e. there is no AND/OR combinations, just simple
     MATCH function or [MATCH, rank] comparison operation.
  */
  bool simple_expression;
  /**
     true if MATCH function is used in WHERE condition only.
     Used to dermine what hints can be used for FT handler.
     Note that only master MATCH function has valid value.
     it's ok since only master function is involved in the hint processing.
  */
  bool used_in_where_only;
  /**
     Check whether storage engine for given table,
     allows FTS Boolean search on non-indexed columns.

     @todo A flag should be added to the extended fulltext API so that
           it may be checked whether search on non-indexed columns are
           supported. Currently, it is not possible to check for such a
           flag since @c this->ft_handler is not yet set when this function is
           called.  The current hack is to assume that search on non-indexed
           columns are supported for engines that does not support the extended
           fulltext API (e.g., MyISAM), while it is not supported for other
           engines (e.g., InnoDB)

     @param tr Table for which storage engine to check

     @retval true if BOOLEAN search on non-indexed columns is supported
     @retval false otherwise
   */
  bool allows_search_on_non_indexed_columns(const TABLE *tr) {
    // Only Boolean search may support non_indexed columns
    if (!(flags & FT_BOOL)) return false;

    DBUG_ASSERT(tr && tr->file);

    // Assume that if extended fulltext API is not supported,
    // non-indexed columns are allowed.  This will be true for MyISAM.
    if ((tr->file->ha_table_flags() & HA_CAN_FULLTEXT_EXT) == 0) return true;

    return false;
  }
};

class Item_func_is_free_lock final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_func_is_free_lock(const POS &pos, Item *a) : Item_int_func(pos, a) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "is_free_lock"; }
  bool resolve_type(THD *) override {
    max_length = 1;
    maybe_null = true;
    return false;
  }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

class Item_func_is_used_lock final : public Item_int_func {
  typedef Item_int_func super;

  String value;

 public:
  Item_func_is_used_lock(const POS &pos, Item *a) : Item_int_func(pos, a) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "is_used_lock"; }
  bool resolve_type(THD *) override {
    unsigned_flag = true;
    maybe_null = true;
    return false;
  }
  bool is_non_const_over_literals(uchar *) override { return true; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

class Item_func_row_count final : public Item_int_func {
  typedef Item_int_func super;

 public:
  explicit Item_func_row_count(const POS &pos) : Item_int_func(pos) {}

  bool itemize(Parse_context *pc, Item **res) override;

  longlong val_int() override;
  const char *func_name() const override { return "row_count"; }
  bool resolve_type(THD *) override {
    maybe_null = false;
    return false;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

/*
 *
 * Stored FUNCTIONs
 *
 */

class sp_head;
class sp_name;

class Item_func_sp final : public Item_func {
  typedef Item_func super;

 private:
  Name_resolution_context *context;
  sp_name *m_name;
  mutable sp_head *m_sp;
  TABLE *dummy_table;
  uchar result_buf[64];
  /*
     The result field of the concrete stored function.
  */
  Field *sp_result_field;

  bool execute();
  bool execute_impl(THD *thd);
  bool init_result_field(THD *thd);

 protected:
  bool is_expensive_processor(uchar *) override { return true; }

 public:
  Item_func_sp(const POS &pos, const LEX_STRING &db_name,
               const LEX_STRING &fn_name, bool use_explicit_name,
               PT_item_list *opt_list);

  bool itemize(Parse_context *pc, Item **res) override;
  /**
    Must not be called before the procedure is resolved,
    i.e. @c init_result_field().
  */
  table_map get_initial_pseudo_tables() const override;
  void update_used_tables() override;
  void fix_after_pullout(SELECT_LEX *parent_select,
                         SELECT_LEX *removed_select) override;
  void cleanup() override;

  const char *func_name() const override;

  Field *tmp_table_field(TABLE *t_arg) override;

  void make_field(Send_field *tmp_field) override;

  Item_result result_type() const override;

  longlong val_int() override {
    if (execute() || null_value) return (longlong)0;
    return sp_result_field->val_int();
  }

  double val_real() override {
    if (execute() || null_value) return 0.0;
    return sp_result_field->val_real();
  }

  bool get_date(MYSQL_TIME *ltime, my_time_flags_t fuzzydate) override {
    if (execute() || null_value) return true;
    return sp_result_field->get_date(ltime, fuzzydate);
  }

  bool get_time(MYSQL_TIME *ltime) override {
    if (execute() || null_value) return true;

    return sp_result_field->get_time(ltime);
  }

  my_decimal *val_decimal(my_decimal *dec_buf) override {
    if (execute() || null_value) return NULL;
    return sp_result_field->val_decimal(dec_buf);
  }

  String *val_str(String *str) override {
    String buf;
    char buff[20];
    buf.set(buff, 20, str->charset());
    buf.length(0);
    if (execute() || null_value) return NULL;
    /*
      result_field will set buf pointing to internal buffer
      of the resul_field. Due to this it will change any time
      when SP is executed. In order to prevent occasional
      corruption of returned value, we make here a copy.
    */
    sp_result_field->val_str(&buf);
    str->copy(buf);
    return str;
  }

  bool val_json(Json_wrapper *result) override;

  bool change_context_processor(uchar *cntx) override {
    context = reinterpret_cast<Name_resolution_context *>(cntx);
    return false;
  }

  bool sp_check_access(THD *thd);
  enum Functype functype() const override { return FUNC_SP; }

  bool fix_fields(THD *thd, Item **ref) override;
  bool resolve_type(THD *thd) override;

  bool is_expensive() override { return true; }

  inline Field *get_sp_result_field() { return sp_result_field; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

class Item_func_found_rows final : public Item_int_func {
  typedef Item_int_func super;

 public:
  explicit Item_func_found_rows(const POS &pos) : Item_int_func(pos) {}

  bool itemize(Parse_context *pc, Item **res) override;
  longlong val_int() override;
  const char *func_name() const override { return "found_rows"; }
  bool resolve_type(THD *) override {
    maybe_null = false;
    return false;
  }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return true;
  }
};

void uuid_short_init();

class Item_func_uuid_short final : public Item_int_func {
  typedef Item_int_func super;

 public:
  Item_func_uuid_short(const POS &pos) : Item_int_func(pos) {}

  bool itemize(Parse_context *pc, Item **res) override;
  const char *func_name() const override { return "uuid_short"; }
  longlong val_int() override;
  bool resolve_type(THD *) override {
    unsigned_flag = true;
    return false;
  }
  bool check_partition_func_processor(uchar *) override { return false; }
  bool check_function_as_value_generator(uchar *checker_args) override {
    Check_function_as_value_generator_parameters *func_arg =
        pointer_cast<Check_function_as_value_generator_parameters *>(
            checker_args);
    func_arg->banned_function_name = func_name();
    return ((func_arg->source == VGS_GENERATED_COLUMN) ||
            (func_arg->source == VGS_CHECK_CONSTRAINT));
  }
};

class Item_func_version final : public Item_static_string_func {
  typedef Item_static_string_func super;

 public:
  explicit Item_func_version(const POS &pos);

  bool itemize(Parse_context *pc, Item **res) override;
};

Item *get_system_var(Parse_context *pc, enum_var_type var_type, LEX_STRING name,
                     LEX_STRING component);
extern bool check_reserved_words(LEX_STRING *name);
extern enum_field_types agg_field_type(Item **items, uint nitems);
double my_double_round(double value, longlong dec, bool dec_unsigned,
                       bool truncate);
bool eval_const_cond(THD *thd, Item *cond, bool *value);
Item_field *get_gc_for_expr(Item_func **func, Field *fld, Item_result type,
                            Field **found = NULL);

void retrieve_tablespace_statistics(THD *thd, Item **args, bool *null_value);

extern bool volatile mqh_used;

#endif /* ITEM_FUNC_INCLUDED */