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374783c3d9
- Add `as <int_type>` to sequence creation options
- int_type can be signed or unsigned integer types, including
tinyint, smallint, mediumint, int and bigint
- Limitation: when alter sequence as <new_int_type>, cannot have any
other alter options in the same statement
- Limitation: increment remains signed longlong, and the hidden
constraint (cache_size x abs(increment) < longlong_max) stays for
unsigned types. This means for bigint unsigned, neither
abs(increment) nor (cache_size x abs(increment)) can be between
longlong_max and ulonglong_max
- Truncating maxvalue and minvalue from user input to the nearest max
or min value of the type, plus or minus 1. When the truncation
happens, a warning is emitted
- Information schema table for sequences
271 lines
8.3 KiB
C++
271 lines
8.3 KiB
C++
/* Copyright (c) 2017, MariaDB corporation
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; version 2 of the License.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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#ifndef SQL_SEQUENCE_INCLUDED
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#define SQL_SEQUENCE_INCLUDED
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#define seq_field_used_min_value 1
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#define seq_field_used_max_value 2
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#define seq_field_used_start 4
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#define seq_field_used_increment 8
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#define seq_field_used_cache 16
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#define seq_field_used_cycle 32
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#define seq_field_used_restart 64
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#define seq_field_used_restart_value 128
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#define seq_field_used_as 256
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#define seq_field_specified_min_value 512
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#define seq_field_specified_max_value 1024
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/* Field position in sequence table for some fields we refer to directly */
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#define NEXT_FIELD_NO 0
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#define MIN_VALUE_FIELD_NO 1
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#define ROUND_FIELD_NO 7
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#include "mysql_com.h"
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#include "sql_type_int.h"
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class Create_field;
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class Type_handler;
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struct Sequence_field_definition
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{
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const char *field_name;
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uint length;
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const Type_handler *type_handler;
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LEX_CSTRING comment;
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ulong flags;
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};
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struct Sequence_row_definition
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{
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Sequence_field_definition fields[9];
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};
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/**
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sequence_definition is used when defining a sequence as part of create
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*/
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class sequence_definition :public Sql_alloc
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{
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public:
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sequence_definition():
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min_value_from_parser(1, false),
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max_value_from_parser(LONGLONG_MAX-1, false), start_from_parser(1, false),
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increment(1), cache(1000), round(0), restart_from_parser(0, false),
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cycle(0), used_fields(0),
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/*
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We use value type and is_unsigned instead of a handler because
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Type_handler is incomplete, which we cannot initialise here with
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&type_handler_slonglong.
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*/
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value_type(MYSQL_TYPE_LONGLONG), is_unsigned(false)
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{}
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longlong reserved_until;
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longlong min_value;
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longlong max_value;
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longlong start;
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Longlong_hybrid min_value_from_parser;
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Longlong_hybrid max_value_from_parser;
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Longlong_hybrid start_from_parser;
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longlong increment;
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longlong cache;
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ulonglong round;
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longlong restart; // alter sequence restart value
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Longlong_hybrid restart_from_parser;
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bool cycle;
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uint used_fields; // Which fields where used in CREATE
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enum_field_types value_type; // value type of the sequence
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bool is_unsigned;
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Type_handler const *value_type_handler();
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/* max value for the value type, e.g. 32767 for smallint. */
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longlong value_type_max();
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/* min value for the value type, e.g. -32768 for smallint. */
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longlong value_type_min();
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bool check_and_adjust(THD *thd, bool set_reserved_until);
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void store_fields(TABLE *table);
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void read_fields(TABLE *table);
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int write_initial_sequence(TABLE *table);
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int write(TABLE *table, bool all_fields);
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/* This must be called after sequence data has been updated */
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void adjust_values(longlong next_value);
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longlong truncate_value(const Longlong_hybrid& original);
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inline void print_dbug()
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{
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DBUG_PRINT("sequence", ("reserved: %lld start: %lld increment: %lld min_value: %lld max_value: %lld cache: %lld round: %lld",
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reserved_until, start, increment, min_value,
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max_value, cache, round));
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}
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static bool is_allowed_value_type(enum_field_types type);
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bool prepare_sequence_fields(List<Create_field> *fields, bool alter);
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protected:
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/*
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The following values are the values from sequence_definition
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merged with global auto_increment_offset and auto_increment_increment
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*/
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longlong real_increment;
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longlong next_free_value;
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};
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/**
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SEQUENCE is in charge of managing the sequence values.
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It's also responsible to generate new values and updating the sequence
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table (engine=SQL_SEQUENCE) trough it's specialized handler interface.
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If increment is 0 then the sequence will be be using
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auto_increment_increment and auto_increment_offset variables, just like
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AUTO_INCREMENT is using.
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*/
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class SEQUENCE :public sequence_definition
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{
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public:
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enum seq_init { SEQ_UNINTIALIZED, SEQ_IN_PREPARE, SEQ_IN_ALTER,
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SEQ_READY_TO_USE };
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SEQUENCE();
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~SEQUENCE();
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int read_initial_values(TABLE *table);
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int read_stored_values(TABLE *table);
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void write_lock(TABLE *table);
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void write_unlock(TABLE *table);
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void read_lock(TABLE *table);
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void read_unlock(TABLE *table);
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void copy(sequence_definition *seq)
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{
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sequence_definition::operator= (*seq);
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adjust_values(reserved_until);
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all_values_used= 0;
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}
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longlong next_value(TABLE *table, bool second_round, int *error);
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int set_value(TABLE *table, longlong next_value, ulonglong round_arg,
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bool is_used);
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bool all_values_used;
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seq_init initialized;
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private:
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/**
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Check that a value is within a relevant bound
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If increasing sequence, check that the value is lower than an
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upper bound, otherwise check that the value is higher than a lower
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bound.
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@param in value The value to check
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@param in upper The upper bound
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@param in lower The lower bound
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@param in increasing Which bound to check
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@retval true The value is within the bound.
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false The value is out of the bound.
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*/
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bool within_bound(const longlong value, const longlong upper,
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const longlong lower, bool increasing)
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{
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return
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(is_unsigned && increasing && (ulonglong) value < (ulonglong) upper) ||
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(is_unsigned && !increasing && (ulonglong) value > (ulonglong) lower) ||
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(!is_unsigned && increasing && value < upper) ||
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(!is_unsigned && !increasing && value > lower);
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}
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/**
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Increment a value, subject to truncation
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Truncating to the nearer value between max_value + 1 and min_value
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- 1
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@param in value The original value
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@param in increment The increment to add to the value
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@return The value after increment and possible truncation
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*/
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longlong increment_value(longlong value, const longlong increment)
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{
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if (is_unsigned)
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{
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if (increment > 0)
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{
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if (/* in case value + increment overflows */
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(ulonglong) value >
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(ulonglong) max_value - (ulonglong) increment ||
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/* in case max_value - increment underflows */
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(ulonglong) value + (ulonglong) increment >
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(ulonglong) max_value)
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value= max_value + 1;
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else
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value+= increment;
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}
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else
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{
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if ((ulonglong) value - (ulonglong) (-increment) <
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(ulonglong) min_value ||
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(ulonglong) value <
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(ulonglong) min_value + (ulonglong) (-increment))
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value= min_value - 1;
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else
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value+= increment;
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}
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} else
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if (increment > 0)
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{
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if (value > max_value - increment || value + increment > max_value)
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value= max_value + 1;
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else
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value+= increment;
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}
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else
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{
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if (value + increment < min_value || value < min_value - increment)
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value= min_value - 1;
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else
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value+= increment;
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}
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return value;
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}
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mysql_rwlock_t mutex;
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};
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/**
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Class to cache last value of NEXT VALUE from the sequence
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*/
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class SEQUENCE_LAST_VALUE
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{
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public:
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SEQUENCE_LAST_VALUE(uchar *key_arg, uint length_arg)
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:key(key_arg), length(length_arg)
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{}
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~SEQUENCE_LAST_VALUE()
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{ my_free((void*) key); }
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/* Returns 1 if table hasn't been dropped or re-created */
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bool check_version(TABLE *table);
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void set_version(TABLE *table);
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const uchar *key;
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uint length;
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bool null_value;
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longlong value;
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uchar table_version[MY_UUID_SIZE];
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};
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extern bool check_sequence_fields(LEX *lex, List<Create_field> *fields,
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const LEX_CSTRING db,
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const LEX_CSTRING table_name);
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extern bool sequence_insert(THD *thd, LEX *lex, TABLE_LIST *table_list);
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#endif /* SQL_SEQUENCE_INCLUDED */
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