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|
/*
Copyright (c) 2000, 2011, Oracle and/or its affiliates.
Copyright (c) 2008-2011 Monty Program Ab
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
/**
@file
@brief
This file implements classes defined in field.h
*/
#ifdef USE_PRAGMA_IMPLEMENTATION
#pragma implementation // gcc: Class implementation
#endif
#include "mysql_priv.h"
#include "sql_select.h"
#include "rpl_rli.h" // Pull in Relay_log_info
#include "slave.h" // Pull in rpl_master_has_bug()
#include <m_ctype.h>
#include <errno.h>
#ifdef HAVE_FCONVERT
#include <floatingpoint.h>
#endif
// Maximum allowed exponent value for converting string to decimal
#define MAX_EXPONENT 1024
/*****************************************************************************
Instansiate templates and static variables
*****************************************************************************/
#ifdef HAVE_EXPLICIT_TEMPLATE_INSTANTIATION
template class List<Create_field>;
template class List_iterator<Create_field>;
#endif
static const char *zero_timestamp="0000-00-00 00:00:00.000000";
/* number of bytes to store second_part part of the TIMESTAMP(N) */
static uint sec_part_bytes[MAX_DATETIME_PRECISION+1]= { 0, 1, 1, 2, 2, 3, 3 };
/* number of bytes to store DATETIME(N) */
static uint datetime_hires_bytes[MAX_DATETIME_PRECISION+1]= { 5, 6, 6, 7, 7, 7, 8 };
/* number of bytes to store TIME(N) */
static uint time_hires_bytes[MAX_DATETIME_PRECISION+1]= { 3, 4, 4, 5, 5, 5, 6 };
uchar Field_null::null[1]={1};
const char field_separator=',';
#define DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE 320
#define LONGLONG_TO_STRING_CONVERSION_BUFFER_SIZE 128
#define DECIMAL_TO_STRING_CONVERSION_BUFFER_SIZE 128
#define BLOB_PACK_LENGTH_TO_MAX_LENGH(arg) \
((ulong) ((LL(1) << min(arg, 4) * 8) - LL(1)))
#define ASSERT_COLUMN_MARKED_FOR_READ DBUG_ASSERT(!table || (!table->read_set || bitmap_is_set(table->read_set, field_index)))
#define ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED DBUG_ASSERT(!table || (!table->write_set || bitmap_is_set(table->write_set, field_index) || bitmap_is_set(table->vcol_set, field_index)))
/*
Rules for merging different types of fields in UNION
NOTE: to avoid 256*256 table, gap in table types numeration is skiped
following #defines describe that gap and how to canculate number of fields
and index of field in thia array.
*/
#define FIELDTYPE_TEAR_FROM (MYSQL_TYPE_BIT + 1)
#define FIELDTYPE_TEAR_TO (MYSQL_TYPE_NEWDECIMAL - 1)
#define FIELDTYPE_NUM (FIELDTYPE_TEAR_FROM + (255 - FIELDTYPE_TEAR_TO))
static inline int field_type2index (enum_field_types field_type)
{
return (field_type < FIELDTYPE_TEAR_FROM ?
field_type :
((int)FIELDTYPE_TEAR_FROM) + (field_type - FIELDTYPE_TEAR_TO) - 1);
}
static enum_field_types field_types_merge_rules [FIELDTYPE_NUM][FIELDTYPE_NUM]=
{
/* MYSQL_TYPE_DECIMAL -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_DECIMAL, MYSQL_TYPE_DECIMAL,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_TINY -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_TINY,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_SHORT, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_TINY, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_SHORT -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_SHORT,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_SHORT, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_SHORT, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_SHORT,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_LONG -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_LONG,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_LONG, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_LONG, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_LONG,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_FLOAT -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_FLOAT,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_FLOAT, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_FLOAT, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_FLOAT,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_DOUBLE -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_NULL -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_TINY,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_SHORT, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_NULL, MYSQL_TYPE_TIMESTAMP,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_TIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_YEAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_BIT,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_ENUM,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_SET, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_GEOMETRY
},
/* MYSQL_TYPE_TIMESTAMP -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_TIMESTAMP, MYSQL_TYPE_TIMESTAMP,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_DATETIME, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_LONGLONG -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_LONGLONG,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_LONGLONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_LONG,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_LONGLONG,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_INT24 -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_INT24,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_INT24, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_INT24, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_INT24,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_DATE -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_TIME -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_TIME, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_DATETIME, MYSQL_TYPE_TIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_DATETIME -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_DATETIME, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_DATETIME, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_YEAR -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_DECIMAL, MYSQL_TYPE_TINY,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_SHORT, MYSQL_TYPE_LONG,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_FLOAT, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_YEAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONGLONG, MYSQL_TYPE_INT24,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_YEAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_NEWDATE -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_DATETIME,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_DATETIME, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_NEWDATE, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_VARCHAR -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_BIT -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_BIT, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_BIT,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_NEWDECIMAL -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_DOUBLE, MYSQL_TYPE_DOUBLE,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_NEWDECIMAL,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_NEWDECIMAL, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_ENUM -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_ENUM, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_SET -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_SET, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_TINY_BLOB -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_TINY_BLOB, MYSQL_TYPE_TINY_BLOB
},
/* MYSQL_TYPE_MEDIUM_BLOB -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_MEDIUM_BLOB
},
/* MYSQL_TYPE_LONG_BLOB -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_LONG_BLOB, MYSQL_TYPE_LONG_BLOB
},
/* MYSQL_TYPE_BLOB -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_BLOB,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_BLOB, MYSQL_TYPE_BLOB
},
/* MYSQL_TYPE_VAR_STRING -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR
},
/* MYSQL_TYPE_STRING -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_STRING, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_STRING,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_STRING, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_STRING
},
/* MYSQL_TYPE_GEOMETRY -> */
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
MYSQL_TYPE_GEOMETRY, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_BIT <16>-<245>
MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
MYSQL_TYPE_VARCHAR, MYSQL_TYPE_TINY_BLOB,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
MYSQL_TYPE_MEDIUM_BLOB, MYSQL_TYPE_LONG_BLOB,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
MYSQL_TYPE_BLOB, MYSQL_TYPE_VARCHAR,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
MYSQL_TYPE_STRING, MYSQL_TYPE_GEOMETRY
}
};
/**
Return type of which can carry value of both given types in UNION result.
@param a type for merging
@param b type for merging
@return
type of field
*/
enum_field_types Field::field_type_merge(enum_field_types a,
enum_field_types b)
{
DBUG_ASSERT(a < FIELDTYPE_TEAR_FROM || a > FIELDTYPE_TEAR_TO);
DBUG_ASSERT(b < FIELDTYPE_TEAR_FROM || b > FIELDTYPE_TEAR_TO);
return field_types_merge_rules[field_type2index(a)]
[field_type2index(b)];
}
static Item_result field_types_result_type [FIELDTYPE_NUM]=
{
//MYSQL_TYPE_DECIMAL MYSQL_TYPE_TINY
DECIMAL_RESULT, INT_RESULT,
//MYSQL_TYPE_SHORT MYSQL_TYPE_LONG
INT_RESULT, INT_RESULT,
//MYSQL_TYPE_FLOAT MYSQL_TYPE_DOUBLE
REAL_RESULT, REAL_RESULT,
//MYSQL_TYPE_NULL MYSQL_TYPE_TIMESTAMP
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_LONGLONG MYSQL_TYPE_INT24
INT_RESULT, INT_RESULT,
//MYSQL_TYPE_DATE MYSQL_TYPE_TIME
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_DATETIME MYSQL_TYPE_YEAR
STRING_RESULT, INT_RESULT,
//MYSQL_TYPE_NEWDATE MYSQL_TYPE_VARCHAR
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_BIT <16>-<245>
STRING_RESULT,
//MYSQL_TYPE_NEWDECIMAL MYSQL_TYPE_ENUM
DECIMAL_RESULT, STRING_RESULT,
//MYSQL_TYPE_SET MYSQL_TYPE_TINY_BLOB
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_MEDIUM_BLOB MYSQL_TYPE_LONG_BLOB
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_BLOB MYSQL_TYPE_VAR_STRING
STRING_RESULT, STRING_RESULT,
//MYSQL_TYPE_STRING MYSQL_TYPE_GEOMETRY
STRING_RESULT, STRING_RESULT
};
/*
Test if the given string contains important data:
not spaces for character string,
or any data for binary string.
SYNOPSIS
test_if_important_data()
cs Character set
str String to test
strend String end
RETURN
FALSE - If string does not have important data
TRUE - If string has some important data
*/
static bool
test_if_important_data(CHARSET_INFO *cs, const char *str, const char *strend)
{
if (cs != &my_charset_bin)
str+= cs->cset->scan(cs, str, strend, MY_SEQ_SPACES);
return (str < strend);
}
/**
Detect Item_result by given field type of UNION merge result.
@param field_type given field type
@return
Item_result (type of internal MySQL expression result)
*/
Item_result Field::result_merge_type(enum_field_types field_type)
{
DBUG_ASSERT(field_type < FIELDTYPE_TEAR_FROM || field_type
> FIELDTYPE_TEAR_TO);
return field_types_result_type[field_type2index(field_type)];
}
/*****************************************************************************
Static help functions
*****************************************************************************/
/**
Check whether a field type can be partially indexed by a key.
This is a static method, rather than a virtual function, because we need
to check the type of a non-Field in mysql_alter_table().
@param type field type
@retval
TRUE Type can have a prefixed key
@retval
FALSE Type can not have a prefixed key
*/
bool Field::type_can_have_key_part(enum enum_field_types type)
{
switch (type) {
case MYSQL_TYPE_VARCHAR:
case MYSQL_TYPE_TINY_BLOB:
case MYSQL_TYPE_MEDIUM_BLOB:
case MYSQL_TYPE_LONG_BLOB:
case MYSQL_TYPE_BLOB:
case MYSQL_TYPE_VAR_STRING:
case MYSQL_TYPE_STRING:
case MYSQL_TYPE_GEOMETRY:
return TRUE;
default:
return FALSE;
}
}
/**
Numeric fields base class constructor.
*/
Field_num::Field_num(uchar *ptr_arg,uint32 len_arg, uchar *null_ptr_arg,
uchar null_bit_arg, utype unireg_check_arg,
const char *field_name_arg,
uint8 dec_arg, bool zero_arg, bool unsigned_arg)
:Field(ptr_arg, len_arg, null_ptr_arg, null_bit_arg,
unireg_check_arg, field_name_arg),
dec(dec_arg),zerofill(zero_arg),unsigned_flag(unsigned_arg)
{
if (zerofill)
flags|=ZEROFILL_FLAG;
if (unsigned_flag)
flags|=UNSIGNED_FLAG;
}
void Field_num::prepend_zeros(String *value)
{
int diff;
if ((diff= (int) (field_length - value->length())) > 0)
{
bmove_upp((uchar*) value->ptr()+field_length,
(uchar*) value->ptr()+value->length(),
value->length());
bfill((uchar*) value->ptr(),diff,'0');
value->length(field_length);
(void) value->c_ptr_quick(); // Avoid warnings in purify
}
}
/**
Test if given number is a int.
@todo
Make this multi-byte-character safe
@param str String to test
@param length Length of 'str'
@param int_end Pointer to char after last used digit
@param cs Character set
@note
This is called after one has called strntoull10rnd() function.
@retval
0 OK
@retval
1 error: empty string or wrong integer.
@retval
2 error: garbage at the end of string.
*/
int Field_num::check_int(CHARSET_INFO *cs, const char *str, int length,
const char *int_end, int error)
{
/* Test if we get an empty string or wrong integer */
if (str == int_end || error == MY_ERRNO_EDOM)
{
char buff[128];
String tmp(buff, (uint32) sizeof(buff), system_charset_info);
tmp.copy(str, length, system_charset_info);
push_warning_printf(table->in_use, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE_FOR_FIELD,
ER(ER_TRUNCATED_WRONG_VALUE_FOR_FIELD),
"integer", tmp.c_ptr(), field_name,
(ulong) table->in_use->row_count);
return 1;
}
/* Test if we have garbage at the end of the given string. */
if (test_if_important_data(cs, int_end, str + length))
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
return 2;
}
return 0;
}
/*
Conver a string to an integer then check bounds.
SYNOPSIS
Field_num::get_int
cs Character set
from String to convert
len Length of the string
rnd OUT longlong value
unsigned_max max unsigned value
signed_min min signed value
signed_max max signed value
DESCRIPTION
The function calls strntoull10rnd() to get an integer value then
check bounds and errors returned. In case of any error a warning
is raised.
RETURN
0 ok
1 error
*/
bool Field_num::get_int(CHARSET_INFO *cs, const char *from, uint len,
longlong *rnd, ulonglong unsigned_max,
longlong signed_min, longlong signed_max)
{
char *end;
int error;
*rnd= (longlong) cs->cset->strntoull10rnd(cs, from, len,
unsigned_flag, &end,
&error);
if (unsigned_flag)
{
if ((((ulonglong) *rnd > unsigned_max) &&
(*rnd= (longlong) unsigned_max)) ||
error == MY_ERRNO_ERANGE)
{
goto out_of_range;
}
}
else
{
if (*rnd < signed_min)
{
*rnd= signed_min;
goto out_of_range;
}
else if (*rnd > signed_max)
{
*rnd= signed_max;
goto out_of_range;
}
}
if (table->in_use->count_cuted_fields &&
check_int(cs, from, len, end, error))
return 1;
return 0;
out_of_range:
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
/**
Process decimal library return codes and issue warnings for overflow and
truncation.
@param op_result decimal library return code (E_DEC_* see include/decimal.h)
@retval
1 there was overflow
@retval
0 no error or some other errors except overflow
*/
int Field::warn_if_overflow(int op_result)
{
if (op_result == E_DEC_OVERFLOW)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
if (op_result == E_DEC_TRUNCATED)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_NOTE, WARN_DATA_TRUNCATED, 1);
/* We return 0 here as this is not a critical issue */
}
return 0;
}
#ifdef NOT_USED
static bool test_if_real(const char *str,int length, CHARSET_INFO *cs)
{
cs= system_charset_info; // QQ move test_if_real into CHARSET_INFO struct
while (length && my_isspace(cs,*str))
{ // Allow start space
length--; str++;
}
if (!length)
return 0;
if (*str == '+' || *str == '-')
{
length--; str++;
if (!length || !(my_isdigit(cs,*str) || *str == '.'))
return 0;
}
while (length && my_isdigit(cs,*str))
{
length--; str++;
}
if (!length)
return 1;
if (*str == '.')
{
length--; str++;
while (length && my_isdigit(cs,*str))
{
length--; str++;
}
}
if (!length)
return 1;
if (*str == 'E' || *str == 'e')
{
if (length < 3 || (str[1] != '+' && str[1] != '-') ||
!my_isdigit(cs,str[2]))
return 0;
length-=3;
str+=3;
while (length && my_isdigit(cs,*str))
{
length--; str++;
}
}
for (; length ; length--, str++)
{ // Allow end space
if (!my_isspace(cs,*str))
return 0;
}
return 1;
}
#endif
/**
Interpret field value as an integer but return the result as a string.
This is used for printing bit_fields as numbers while debugging.
*/
String *Field::val_int_as_str(String *val_buffer, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_READ;
CHARSET_INFO *cs= &my_charset_bin;
uint length;
longlong value= val_int();
if (val_buffer->alloc(MY_INT64_NUM_DECIMAL_DIGITS))
return 0;
length= (uint) (*cs->cset->longlong10_to_str)(cs, (char*) val_buffer->ptr(),
MY_INT64_NUM_DECIMAL_DIGITS,
unsigned_val ? 10 : -10,
value);
val_buffer->length(length);
return val_buffer;
}
/// This is used as a table name when the table structure is not set up
Field::Field(uchar *ptr_arg,uint32 length_arg,uchar *null_ptr_arg,
uchar null_bit_arg,
utype unireg_check_arg, const char *field_name_arg)
:ptr(ptr_arg), null_ptr(null_ptr_arg), table(0), orig_table(0),
table_name(0), field_name(field_name_arg), option_list(0),
option_struct(0), key_start(0), part_of_key(0),
part_of_key_not_clustered(0), part_of_sortkey(0),
unireg_check(unireg_check_arg), field_length(length_arg),
null_bit(null_bit_arg), is_created_from_null_item(FALSE), vcol_info(0),
stored_in_db(TRUE)
{
flags=null_ptr ? 0: NOT_NULL_FLAG;
comment.str= (char*) "";
comment.length=0;
field_index= 0;
}
void Field::hash(ulong *nr, ulong *nr2)
{
if (is_null())
{
*nr^= (*nr << 1) | 1;
}
else
{
uint len= pack_length();
CHARSET_INFO *cs= charset();
cs->coll->hash_sort(cs, ptr, len, nr, nr2);
}
}
size_t
Field::do_last_null_byte() const
{
DBUG_ASSERT(null_ptr == NULL || null_ptr >= table->record[0]);
if (null_ptr)
return (size_t) (null_ptr - table->record[0]) + 1;
return LAST_NULL_BYTE_UNDEF;
}
void Field::copy_from_tmp(int row_offset)
{
memcpy(ptr,ptr+row_offset,pack_length());
if (null_ptr)
{
*null_ptr= (uchar) ((null_ptr[0] & (uchar) ~(uint) null_bit) |
(null_ptr[row_offset] & (uchar) null_bit));
}
}
bool Field::send_binary(Protocol *protocol)
{
char buff[MAX_FIELD_WIDTH];
String tmp(buff,sizeof(buff),charset());
val_str(&tmp);
return protocol->store(tmp.ptr(), tmp.length(), tmp.charset());
}
/**
Check to see if field size is compatible with destination.
This method is used in row-based replication to verify that the slave's
field size is less than or equal to the master's field size. The
encoded field metadata (from the master or source) is decoded and compared
to the size of this field (the slave or destination).
@param field_metadata Encoded size in field metadata
@param mflags Flags from the table map event for the table.
@retval 0 if this field's size is < the source field's size
@retval 1 if this field's size is >= the source field's size
*/
int Field::compatible_field_size(uint field_metadata,
const Relay_log_info *rli_arg __attribute__((unused)),
uint16 mflags __attribute__((unused)))
{
uint const source_size= pack_length_from_metadata(field_metadata);
uint const destination_size= row_pack_length();
return (source_size <= destination_size);
}
int Field::store(const char *to, uint length, CHARSET_INFO *cs,
enum_check_fields check_level)
{
int res;
enum_check_fields old_check_level= table->in_use->count_cuted_fields;
table->in_use->count_cuted_fields= check_level;
res= store(to, length, cs);
table->in_use->count_cuted_fields= old_check_level;
return res;
}
/**
Pack the field into a format suitable for storage and transfer.
To implement packing functionality, only the virtual function
should be overridden. The other functions are just convenience
functions and hence should not be overridden.
@note The default method for packing fields just copy the raw bytes
of the record into the destination, but never more than
<code>max_length</code> characters.
@param to
Pointer to memory area where representation of field should be put.
@param from
Pointer to memory area where record representation of field is
stored.
@param max_length
Maximum length of the field, as given in the column definition. For
example, for <code>CHAR(1000)</code>, the <code>max_length</code>
is 1000. This information is sometimes needed to decide how to pack
the data.
*/
uchar *
Field::pack(uchar *to, const uchar *from, uint max_length)
{
uint32 length= pack_length();
set_if_smaller(length, max_length);
memcpy(to, from, length);
return to+length;
}
/**
Unpack a field from row data.
This method is used to unpack a field from a master whose size of
the field is less than that of the slave.
The <code>param_data</code> parameter is a two-byte integer (stored
in the least significant 16 bits of the unsigned integer) usually
consisting of two parts: the real type in the most significant byte
and a original pack length in the least significant byte.
The exact layout of the <code>param_data</code> field is given by
the <code>Table_map_log_event::save_field_metadata()</code>.
This is the default method for unpacking a field. It just copies
the memory block in byte order (of original pack length bytes or
length of field, whichever is smaller).
@param to Destination of the data
@param from Source of the data
@param param_data Real type and original pack length of the field
data
@return New pointer into memory based on from + length of the data
@return 0 if wrong data
*/
const uchar *
Field::unpack(uchar* to, const uchar *from, const uchar *from_end,
uint param_data)
{
uint length=pack_length(), len;
int from_type= 0;
/*
If from length is > 255, it has encoded data in the upper bits. Need
to mask it out.
*/
if (param_data > 255)
{
from_type= (param_data & 0xff00) >> 8U; // real_type.
param_data= param_data & 0x00ff; // length.
}
if ((param_data == 0) ||
(length == param_data) ||
(from_type != real_type()))
{
if (from + length > from_end)
return 0; // Error in data
memcpy(to, from, length);
return from+length;
}
len= (param_data && (param_data < length)) ? param_data : length;
if (from + len > from_end)
return 0; // Error in data
memcpy(to, from, len);
return from+len;
}
my_decimal *Field::val_decimal(my_decimal *decimal)
{
/* This never have to be called */
DBUG_ASSERT(0);
return 0;
}
void Field_num::add_zerofill_and_unsigned(String &res) const
{
if (unsigned_flag)
res.append(STRING_WITH_LEN(" unsigned"));
if (zerofill)
res.append(STRING_WITH_LEN(" zerofill"));
}
void Field::make_field(Send_field *field)
{
if (orig_table && orig_table->s->db.str && *orig_table->s->db.str)
{
field->db_name= orig_table->s->db.str;
field->org_table_name= orig_table->s->table_name.str;
}
else
field->org_table_name= field->db_name= "";
if (orig_table && orig_table->alias.ptr())
{
field->table_name= orig_table->alias.ptr();
field->org_col_name= field_name;
}
else
{
field->table_name= "";
field->org_col_name= "";
}
field->col_name= field_name;
field->charsetnr= charset()->number;
field->length=field_length;
field->type=type();
field->flags=table->maybe_null ? (flags & ~NOT_NULL_FLAG) : flags;
field->decimals= 0;
}
/**
Conversion from decimal to longlong with checking overflow and
setting correct value (min/max) in case of overflow.
@param val value which have to be converted
@param unsigned_flag type of integer in which we convert val
@param err variable to pass error code
@return
value converted from val
*/
longlong Field::convert_decimal2longlong(const my_decimal *val,
bool unsigned_flag, int *err)
{
longlong i;
if (unsigned_flag)
{
if (val->sign())
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
i= 0;
*err= 1;
}
else if (warn_if_overflow(my_decimal2int((E_DEC_ERROR &
~E_DEC_OVERFLOW &
~E_DEC_TRUNCATED),
val, TRUE, &i)))
{
i= ~(longlong) 0;
*err= 1;
}
}
else if (warn_if_overflow(my_decimal2int((E_DEC_ERROR &
~E_DEC_OVERFLOW &
~E_DEC_TRUNCATED),
val, FALSE, &i)))
{
i= (val->sign() ? LONGLONG_MIN : LONGLONG_MAX);
*err= 1;
}
return i;
}
/**
Storing decimal in integer fields.
@param val value for storing
@note
This method is used by all integer fields, real/decimal redefine it
@retval
0 OK
@retval
!=0 error
*/
int Field_num::store_decimal(const my_decimal *val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int err= 0;
longlong i= convert_decimal2longlong(val, unsigned_flag, &err);
return test(err | store(i, unsigned_flag));
}
/**
Return decimal value of integer field.
@param decimal_value buffer for storing decimal value
@note
This method is used by all integer fields, real/decimal redefine it.
All longlong values fit in our decimal buffer which cal store 8*9=72
digits of integer number
@return
pointer to decimal buffer with value of field
*/
my_decimal* Field_num::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
DBUG_ASSERT(result_type() == INT_RESULT);
longlong nr= val_int();
int2my_decimal(E_DEC_FATAL_ERROR, nr, unsigned_flag, decimal_value);
return decimal_value;
}
Field_str::Field_str(uchar *ptr_arg,uint32 len_arg, uchar *null_ptr_arg,
uchar null_bit_arg, utype unireg_check_arg,
const char *field_name_arg, CHARSET_INFO *charset_arg)
:Field(ptr_arg, len_arg, null_ptr_arg, null_bit_arg,
unireg_check_arg, field_name_arg)
{
field_charset= charset_arg;
if (charset_arg->state & MY_CS_BINSORT)
flags|=BINARY_FLAG;
field_derivation= DERIVATION_IMPLICIT;
}
void Field_num::make_field(Send_field *field)
{
Field::make_field(field);
field->decimals= dec;
}
/**
Decimal representation of Field_str.
@param d value for storing
@note
Field_str is the base class for fields like Field_enum,
Field_date and some similar. Some dates use fraction and also
string value should be converted to floating point value according
our rules, so we use double to store value of decimal in string.
@todo
use decimal2string?
@retval
0 OK
@retval
!=0 error
*/
int Field_str::store_decimal(const my_decimal *d)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
double val;
/* TODO: use decimal2string? */
int err= warn_if_overflow(my_decimal2double(E_DEC_FATAL_ERROR &
~E_DEC_OVERFLOW, d, &val));
return err | store(val);
}
my_decimal *Field_str::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
longlong nr= val_int();
int2my_decimal(E_DEC_FATAL_ERROR, nr, 0, decimal_value);
return decimal_value;
}
uint Field::fill_cache_field(CACHE_FIELD *copy)
{
uint store_length;
copy->str= ptr;
copy->length= pack_length();
copy->field= this;
if (flags & BLOB_FLAG)
{
copy->type= CACHE_BLOB;
copy->length-= table->s->blob_ptr_size;
return copy->length;
}
else if (!zero_pack() &&
(type() == MYSQL_TYPE_STRING && copy->length >= 4 &&
copy->length < 256))
{
copy->type= CACHE_STRIPPED; /* Remove end space */
store_length= 2;
}
else if (type() == MYSQL_TYPE_VARCHAR)
{
copy->type= pack_length()-row_pack_length() == 1 ? CACHE_VARSTR1:
CACHE_VARSTR2;
store_length= 0;
}
else
{
copy->type= 0;
store_length= 0;
}
return copy->length + store_length;
}
bool Field::get_date(MYSQL_TIME *ltime,uint fuzzydate)
{
char buff[40];
String tmp(buff,sizeof(buff),&my_charset_bin),*res;
if (!(res=val_str(&tmp)) ||
str_to_datetime_with_warn(res->ptr(), res->length(),
ltime, fuzzydate) <= MYSQL_TIMESTAMP_ERROR)
return 1;
return 0;
}
/**
This is called when storing a date in a string.
@note
Needs to be changed if/when we want to support different time formats.
*/
int Field::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
char buff[MAX_DATE_STRING_REP_LENGTH];
uint length= (uint) my_TIME_to_str(ltime, buff, dec);
return store(buff, length, &my_charset_bin);
}
bool Field::optimize_range(uint idx, uint part)
{
return test(table->file->index_flags(idx, part, 1) & HA_READ_RANGE);
}
Field *Field::new_field(MEM_ROOT *root, struct st_table *new_table,
bool keep_type __attribute__((unused)))
{
Field *tmp;
if (!(tmp= (Field*) memdup_root(root,(char*) this,size_of())))
return 0;
if (tmp->table->maybe_null)
tmp->flags&= ~NOT_NULL_FLAG;
tmp->table= new_table;
tmp->key_start.init(0);
tmp->part_of_key.init(0);
tmp->part_of_sortkey.init(0);
tmp->unireg_check= Field::NONE;
tmp->flags&= (NOT_NULL_FLAG | BLOB_FLAG | UNSIGNED_FLAG |
ZEROFILL_FLAG | BINARY_FLAG | ENUM_FLAG | SET_FLAG);
tmp->reset_fields();
return tmp;
}
Field *Field::new_key_field(MEM_ROOT *root, struct st_table *new_table,
uchar *new_ptr, uchar *new_null_ptr,
uint new_null_bit)
{
Field *tmp;
if ((tmp= new_field(root, new_table, table == new_table)))
{
tmp->ptr= new_ptr;
tmp->null_ptr= new_null_ptr;
tmp->null_bit= new_null_bit;
}
return tmp;
}
/* This is used to generate a field in TABLE from TABLE_SHARE */
Field *Field::clone(MEM_ROOT *root, struct st_table *new_table)
{
Field *tmp;
if ((tmp= (Field*) memdup_root(root,(char*) this,size_of())))
{
tmp->init(new_table);
tmp->move_field_offset((my_ptrdiff_t) (new_table->record[0] -
new_table->s->default_values));
}
return tmp;
}
/****************************************************************************
Field_null, a field that always return NULL
****************************************************************************/
void Field_null::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("null"));
}
/****************************************************************************
Functions for the Field_decimal class
This is an number stored as a pre-space (or pre-zero) string
****************************************************************************/
int
Field_decimal::reset(void)
{
Field_decimal::store(STRING_WITH_LEN("0"),&my_charset_bin);
return 0;
}
void Field_decimal::overflow(bool negative)
{
uint len=field_length;
uchar *to=ptr, filler= '9';
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
if (negative)
{
if (!unsigned_flag)
{
/* Put - sign as a first digit so we'll have -999..999 or 999..999 */
*to++ = '-';
len--;
}
else
{
filler= '0'; // Fill up with 0
if (!zerofill)
{
/*
Handle unsigned integer without zerofill, in which case
the number should be of format ' 0' or ' 0.000'
*/
uint whole_part=field_length- (dec ? dec+2 : 1);
// Fill with spaces up to the first digit
bfill(to, whole_part, ' ');
to+= whole_part;
len-= whole_part;
// The main code will also handle the 0 before the decimal point
}
}
}
bfill(to, len, filler);
if (dec)
ptr[field_length-dec-1]='.';
return;
}
int Field_decimal::store(const char *from_arg, uint len, CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
char buff[STRING_BUFFER_USUAL_SIZE];
String tmp(buff,sizeof(buff), &my_charset_bin);
const uchar *from= (uchar*) from_arg;
/* Convert character set if the old one is multi uchar */
if (cs->mbmaxlen > 1)
{
uint dummy_errors;
tmp.copy((char*) from, len, cs, &my_charset_bin, &dummy_errors);
from= (uchar*) tmp.ptr();
len= tmp.length();
}
const uchar *end= from+len;
/* The pointer where the field value starts (i.e., "where to write") */
uchar *to= ptr;
uint tmp_dec, tmp_uint;
/*
The sign of the number : will be 0 (means positive but sign not
specified), '+' or '-'
*/
uchar sign_char=0;
/* The pointers where prezeros start and stop */
const uchar *pre_zeros_from, *pre_zeros_end;
/* The pointers where digits at the left of '.' start and stop */
const uchar *int_digits_from, *int_digits_end;
/* The pointers where digits at the right of '.' start and stop */
const uchar *frac_digits_from, *frac_digits_end;
/* The sign of the exponent : will be 0 (means no exponent), '+' or '-' */
char expo_sign_char=0;
uint exponent=0; // value of the exponent
/*
Pointers used when digits move from the left of the '.' to the
right of the '.' (explained below)
*/
const uchar *UNINIT_VAR(int_digits_tail_from);
/* Number of 0 that need to be added at the left of the '.' (1E3: 3 zeros) */
uint UNINIT_VAR(int_digits_added_zeros);
/*
Pointer used when digits move from the right of the '.' to the left
of the '.'
*/
const uchar *UNINIT_VAR(frac_digits_head_end);
/* Number of 0 that need to be added at the right of the '.' (for 1E-3) */
uint UNINIT_VAR(frac_digits_added_zeros);
uchar *pos,*tmp_left_pos,*tmp_right_pos;
/* Pointers that are used as limits (begin and end of the field buffer) */
uchar *left_wall,*right_wall;
uchar tmp_char;
/*
To remember if table->in_use->cuted_fields has already been incremented,
to do that only once
*/
bool is_cuted_fields_incr=0;
/*
There are three steps in this function :
- parse the input string
- modify the position of digits around the decimal dot '.'
according to the exponent value (if specified)
- write the formatted number
*/
if ((tmp_dec=dec))
tmp_dec++;
/* skip pre-space */
while (from != end && my_isspace(&my_charset_bin,*from))
from++;
if (from == end)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
is_cuted_fields_incr=1;
}
else if (*from == '+' || *from == '-') // Found some sign ?
{
sign_char= *from++;
/*
We allow "+" for unsigned decimal unless defined different
Both options allowed as one may wish not to have "+" for unsigned numbers
because of data processing issues
*/
if (unsigned_flag)
{
if (sign_char=='-')
{
Field_decimal::overflow(1);
return 1;
}
/*
Defining this will not store "+" for unsigned decimal type even if
it is passed in numeric string. This will make some tests to fail
*/
#ifdef DONT_ALLOW_UNSIGNED_PLUS
else
sign_char=0;
#endif
}
}
pre_zeros_from= from;
for (; from!=end && *from == '0'; from++) ; // Read prezeros
pre_zeros_end=int_digits_from=from;
/* Read non zero digits at the left of '.'*/
for (; from != end && my_isdigit(&my_charset_bin, *from) ; from++) ;
int_digits_end=from;
if (from!=end && *from == '.') // Some '.' ?
from++;
frac_digits_from= from;
/* Read digits at the right of '.' */
for (;from!=end && my_isdigit(&my_charset_bin, *from); from++) ;
frac_digits_end=from;
// Some exponentiation symbol ?
if (from != end && (*from == 'e' || *from == 'E'))
{
from++;
if (from != end && (*from == '+' || *from == '-')) // Some exponent sign ?
expo_sign_char= *from++;
else
expo_sign_char= '+';
/*
Read digits of the exponent and compute its value. We must care about
'exponent' overflow, because as unsigned arithmetic is "modulo", big
exponents will become small (e.g. 1e4294967296 will become 1e0, and the
field will finally contain 1 instead of its max possible value).
*/
for (;from!=end && my_isdigit(&my_charset_bin, *from); from++)
{
exponent=10*exponent+(*from-'0');
if (exponent>MAX_EXPONENT)
break;
}
}
/*
We only have to generate warnings if count_cuted_fields is set.
This is to avoid extra checks of the number when they are not needed.
Even if this flag is not set, it's OK to increment warnings, if
it makes the code easer to read.
*/
if (table->in_use->count_cuted_fields)
{
// Skip end spaces
for (;from != end && my_isspace(&my_charset_bin, *from); from++) ;
if (from != end) // If still something left, warn
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
is_cuted_fields_incr=1;
}
}
/*
Now "move" digits around the decimal dot according to the exponent value,
and add necessary zeros.
Examples :
- 1E+3 : needs 3 more zeros at the left of '.' (int_digits_added_zeros=3)
- 1E-3 : '1' moves at the right of '.', and 2 more zeros are needed
between '.' and '1'
- 1234.5E-3 : '234' moves at the right of '.'
These moves are implemented with pointers which point at the begin
and end of each moved segment. Examples :
- 1234.5E-3 : before the code below is executed, the int_digits part is
from '1' to '4' and the frac_digits part from '5' to '5'. After the code
below, the int_digits part is from '1' to '1', the frac_digits_head
part is from '2' to '4', and the frac_digits part from '5' to '5'.
- 1234.5E3 : before the code below is executed, the int_digits part is
from '1' to '4' and the frac_digits part from '5' to '5'. After the code
below, the int_digits part is from '1' to '4', the int_digits_tail
part is from '5' to '5', the frac_digits part is empty, and
int_digits_added_zeros=2 (to make 1234500).
*/
/*
Below tmp_uint cannot overflow with small enough MAX_EXPONENT setting,
as int_digits_added_zeros<=exponent<4G and
(int_digits_end-int_digits_from)<=max_allowed_packet<=2G and
(frac_digits_from-int_digits_tail_from)<=max_allowed_packet<=2G
*/
if (!expo_sign_char)
tmp_uint=tmp_dec+(uint)(int_digits_end-int_digits_from);
else if (expo_sign_char == '-')
{
tmp_uint=min(exponent,(uint)(int_digits_end-int_digits_from));
frac_digits_added_zeros=exponent-tmp_uint;
int_digits_end -= tmp_uint;
frac_digits_head_end=int_digits_end+tmp_uint;
tmp_uint=tmp_dec+(uint)(int_digits_end-int_digits_from);
}
else // (expo_sign_char=='+')
{
tmp_uint=min(exponent,(uint)(frac_digits_end-frac_digits_from));
int_digits_added_zeros=exponent-tmp_uint;
int_digits_tail_from=frac_digits_from;
frac_digits_from=frac_digits_from+tmp_uint;
/*
We "eat" the heading zeros of the
int_digits.int_digits_tail.int_digits_added_zeros concatenation
(for example 0.003e3 must become 3 and not 0003)
*/
if (int_digits_from == int_digits_end)
{
/*
There was nothing in the int_digits part, so continue
eating int_digits_tail zeros
*/
for (; int_digits_tail_from != frac_digits_from &&
*int_digits_tail_from == '0'; int_digits_tail_from++) ;
if (int_digits_tail_from == frac_digits_from)
{
// there were only zeros in int_digits_tail too
int_digits_added_zeros=0;
}
}
tmp_uint= (uint) (tmp_dec+(int_digits_end-int_digits_from)+
(uint)(frac_digits_from-int_digits_tail_from)+
int_digits_added_zeros);
}
/*
Now write the formated number
First the digits of the int_% parts.
Do we have enough room to write these digits ?
If the sign is defined and '-', we need one position for it
*/
if (field_length < tmp_uint + (int) (sign_char == '-'))
{
// too big number, change to max or min number
Field_decimal::overflow(sign_char == '-');
return 1;
}
/*
Tmp_left_pos is the position where the leftmost digit of
the int_% parts will be written
*/
tmp_left_pos=pos=to+(uint)(field_length-tmp_uint);
// Write all digits of the int_% parts
while (int_digits_from != int_digits_end)
*pos++ = *int_digits_from++ ;
if (expo_sign_char == '+')
{
while (int_digits_tail_from != frac_digits_from)
*pos++= *int_digits_tail_from++;
while (int_digits_added_zeros-- >0)
*pos++= '0';
}
/*
Note the position where the rightmost digit of the int_% parts has been
written (this is to later check if the int_% parts contained nothing,
meaning an extra 0 is needed).
*/
tmp_right_pos=pos;
/*
Step back to the position of the leftmost digit of the int_% parts,
to write sign and fill with zeros or blanks or prezeros.
*/
pos=tmp_left_pos-1;
if (zerofill)
{
left_wall=to-1;
while (pos > left_wall) // Fill with zeros
*pos--='0';
}
else
{
left_wall=to+(sign_char != 0)-1;
if (!expo_sign_char) // If exponent was specified, ignore prezeros
{
for (;pos > left_wall && pre_zeros_from !=pre_zeros_end;
pre_zeros_from++)
*pos--= '0';
}
if (pos == tmp_right_pos-1)
*pos--= '0'; // no 0 has ever been written, so write one
left_wall= to-1;
if (sign_char && pos != left_wall)
{
/* Write sign if possible (it is if sign is '-') */
*pos--= sign_char;
}
while (pos != left_wall)
*pos--=' '; //fill with blanks
}
/*
Write digits of the frac_% parts ;
Depending on table->in_use->count_cutted_fields, we may also want
to know if some non-zero tail of these parts will
be truncated (for example, 0.002->0.00 will generate a warning,
while 0.000->0.00 will not)
(and 0E1000000000 will not, while 1E-1000000000 will)
*/
pos=to+(uint)(field_length-tmp_dec); // Calculate post to '.'
right_wall=to+field_length;
if (pos != right_wall)
*pos++='.';
if (expo_sign_char == '-')
{
while (frac_digits_added_zeros-- > 0)
{
if (pos == right_wall)
{
if (table->in_use->count_cuted_fields && !is_cuted_fields_incr)
break; // Go on below to see if we lose non zero digits
return 0;
}
*pos++='0';
}
while (int_digits_end != frac_digits_head_end)
{
tmp_char= *int_digits_end++;
if (pos == right_wall)
{
if (tmp_char != '0') // Losing a non zero digit ?
{
if (!is_cuted_fields_incr)
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN,
WARN_DATA_TRUNCATED, 1);
return 0;
}
continue;
}
*pos++= tmp_char;
}
}
for (;frac_digits_from!=frac_digits_end;)
{
tmp_char= *frac_digits_from++;
if (pos == right_wall)
{
if (tmp_char != '0') // Losing a non zero digit ?
{
if (!is_cuted_fields_incr)
{
/*
This is a note, not a warning, as we don't want to abort
when we cut decimals in strict mode
*/
set_warning(MYSQL_ERROR::WARN_LEVEL_NOTE, WARN_DATA_TRUNCATED, 1);
}
return 0;
}
continue;
}
*pos++= tmp_char;
}
while (pos != right_wall)
*pos++='0'; // Fill with zeros at right of '.'
return 0;
}
int Field_decimal::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
if (unsigned_flag && nr < 0)
{
overflow(1);
return 1;
}
if (!isfinite(nr)) // Handle infinity as special case
{
overflow(nr < 0.0);
return 1;
}
reg4 uint i;
size_t length;
uchar fyllchar,*to;
char buff[DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE];
fyllchar = zerofill ? (char) '0' : (char) ' ';
#ifdef HAVE_SNPRINTF
buff[sizeof(buff)-1]=0; // Safety
snprintf(buff,sizeof(buff)-1, "%.*f",(int) dec,nr);
length= strlen(buff);
#else
length= my_sprintf(buff,(buff,"%.*f",dec,nr));
#endif
if (length > field_length)
{
overflow(nr < 0.0);
return 1;
}
else
{
to=ptr;
for (i=field_length-length ; i-- > 0 ;)
*to++ = fyllchar;
memcpy(to,buff,length);
return 0;
}
}
int Field_decimal::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
char buff[22];
uint length, int_part;
char fyllchar;
uchar *to;
if (nr < 0 && unsigned_flag && !unsigned_val)
{
overflow(1);
return 1;
}
length= (uint) (longlong10_to_str(nr,buff,unsigned_val ? 10 : -10) - buff);
int_part= field_length- (dec ? dec+1 : 0);
if (length > int_part)
{
overflow(!unsigned_val && nr < 0L); /* purecov: inspected */
return 1;
}
fyllchar = zerofill ? (char) '0' : (char) ' ';
to= ptr;
for (uint i=int_part-length ; i-- > 0 ;)
*to++ = fyllchar;
memcpy(to,buff,length);
if (dec)
{
to[length]='.';
bfill(to+length+1,dec,'0');
}
return 0;
}
double Field_decimal::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
char *end_not_used;
return my_strntod(&my_charset_bin, (char*) ptr, field_length, &end_not_used,
¬_used);
}
longlong Field_decimal::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
if (unsigned_flag)
return my_strntoull(&my_charset_bin, (char*) ptr, field_length, 10, NULL,
¬_used);
return my_strntoll(&my_charset_bin, (char*) ptr, field_length, 10, NULL,
¬_used);
}
String *Field_decimal::val_str(String *val_buffer __attribute__((unused)),
String *val_ptr)
{
ASSERT_COLUMN_MARKED_FOR_READ;
uchar *str;
size_t tmp_length;
for (str=ptr ; *str == ' ' ; str++) ;
val_ptr->set_charset(&my_charset_bin);
tmp_length= (size_t) (str-ptr);
if (field_length < tmp_length) // Error in data
val_ptr->length(0);
else
val_ptr->set_ascii((const char*) str, field_length-tmp_length);
return val_ptr;
}
/**
Should be able to handle at least the following fixed decimal formats:
5.00 , -1.0, 05, -05, +5 with optional pre/end space
*/
int Field_decimal::cmp(const uchar *a_ptr,const uchar *b_ptr)
{
const uchar *end;
int swap=0;
/* First remove prefixes '0', ' ', and '-' */
for (end=a_ptr+field_length;
a_ptr != end &&
(*a_ptr == *b_ptr ||
((my_isspace(&my_charset_bin,*a_ptr) || *a_ptr == '+' ||
*a_ptr == '0') &&
(my_isspace(&my_charset_bin,*b_ptr) || *b_ptr == '+' ||
*b_ptr == '0')));
a_ptr++,b_ptr++)
{
if (*a_ptr == '-') // If both numbers are negative
swap= -1 ^ 1; // Swap result
}
if (a_ptr == end)
return 0;
if (*a_ptr == '-')
return -1;
if (*b_ptr == '-')
return 1;
while (a_ptr != end)
{
if (*a_ptr++ != *b_ptr++)
return swap ^ (a_ptr[-1] < b_ptr[-1] ? -1 : 1); // compare digits
}
return 0;
}
void Field_decimal::sort_string(uchar *to,uint length)
{
uchar *str,*end;
for (str=ptr,end=ptr+length;
str != end &&
((my_isspace(&my_charset_bin,*str) || *str == '+' ||
*str == '0')) ;
str++)
*to++=' ';
if (str == end)
return; /* purecov: inspected */
if (*str == '-')
{
*to++=1; // Smaller than any number
str++;
while (str != end)
if (my_isdigit(&my_charset_bin,*str))
*to++= (char) ('9' - *str++);
else
*to++= *str++;
}
else memcpy(to,str,(uint) (end-str));
}
void Field_decimal::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
uint tmp=field_length;
if (!unsigned_flag)
tmp--;
if (dec)
tmp--;
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"decimal(%d,%d)",tmp,dec));
add_zerofill_and_unsigned(res);
}
/****************************************************************************
** Field_new_decimal
****************************************************************************/
Field_new_decimal::Field_new_decimal(uchar *ptr_arg,
uint32 len_arg, uchar *null_ptr_arg,
uchar null_bit_arg,
enum utype unireg_check_arg,
const char *field_name_arg,
uint8 dec_arg,bool zero_arg,
bool unsigned_arg)
:Field_num(ptr_arg, len_arg, null_ptr_arg, null_bit_arg,
unireg_check_arg, field_name_arg, dec_arg, zero_arg, unsigned_arg)
{
precision= my_decimal_length_to_precision(len_arg, dec_arg, unsigned_arg);
set_if_smaller(precision, DECIMAL_MAX_PRECISION);
DBUG_ASSERT((precision <= DECIMAL_MAX_PRECISION) &&
(dec <= DECIMAL_MAX_SCALE));
bin_size= my_decimal_get_binary_size(precision, dec);
}
Field_new_decimal::Field_new_decimal(uint32 len_arg,
bool maybe_null_arg,
const char *name,
uint8 dec_arg,
bool unsigned_arg)
:Field_num((uchar*) 0, len_arg,
maybe_null_arg ? (uchar*) "": 0, 0,
NONE, name, dec_arg, 0, unsigned_arg)
{
precision= my_decimal_length_to_precision(len_arg, dec_arg, unsigned_arg);
set_if_smaller(precision, DECIMAL_MAX_PRECISION);
DBUG_ASSERT((precision <= DECIMAL_MAX_PRECISION) &&
(dec <= DECIMAL_MAX_SCALE));
bin_size= my_decimal_get_binary_size(precision, dec);
}
Field *Field_new_decimal::create_from_item (Item *item)
{
uint8 dec= item->decimals;
uint8 intg= item->decimal_precision() - dec;
uint32 len= item->max_length;
DBUG_ASSERT (item->result_type() == DECIMAL_RESULT);
/*
Trying to put too many digits overall in a DECIMAL(prec,dec)
will always throw a warning. We must limit dec to
DECIMAL_MAX_SCALE however to prevent an assert() later.
*/
if (dec > 0)
{
signed int overflow;
dec= min(dec, DECIMAL_MAX_SCALE);
/*
If the value still overflows the field with the corrected dec,
we'll throw out decimals rather than integers. This is still
bad and of course throws a truncation warning.
+1: for decimal point
*/
const int required_length=
my_decimal_precision_to_length(intg + dec, dec,
item->unsigned_flag);
overflow= required_length - len;
if (overflow > 0)
dec= max(0, dec - overflow); // too long, discard fract
else
/* Corrected value fits. */
len= required_length;
}
return new Field_new_decimal(len, item->maybe_null, item->name,
dec, item->unsigned_flag);
}
int Field_new_decimal::reset(void)
{
store_value(&decimal_zero);
return 0;
}
/**
Generate max/min decimal value in case of overflow.
@param decimal_value buffer for value
@param sign sign of value which caused overflow
*/
void Field_new_decimal::set_value_on_overflow(my_decimal *decimal_value,
bool sign)
{
DBUG_ENTER("Field_new_decimal::set_value_on_overflow");
max_my_decimal(decimal_value, precision, decimals());
if (sign)
{
if (unsigned_flag)
my_decimal_set_zero(decimal_value);
else
decimal_value->sign(TRUE);
}
DBUG_VOID_RETURN;
}
/**
Store decimal value in the binary buffer.
Checks if decimal_value fits into field size.
If it does, stores the decimal in the buffer using binary format.
Otherwise sets maximal number that can be stored in the field.
@param decimal_value my_decimal
@retval
0 ok
@retval
1 error
*/
bool Field_new_decimal::store_value(const my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
DBUG_ENTER("Field_new_decimal::store_value");
#ifndef DBUG_OFF
{
char dbug_buff[DECIMAL_MAX_STR_LENGTH+2];
DBUG_PRINT("enter", ("value: %s", dbug_decimal_as_string(dbug_buff, decimal_value)));
}
#endif
/* check that we do not try to write negative value in unsigned field */
if (unsigned_flag && decimal_value->sign())
{
DBUG_PRINT("info", ("unsigned overflow"));
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
decimal_value= &decimal_zero;
}
#ifndef DBUG_OFF
{
char dbug_buff[DECIMAL_MAX_STR_LENGTH+2];
DBUG_PRINT("info", ("saving with precision %d scale: %d value %s",
(int)precision, (int)dec,
dbug_decimal_as_string(dbug_buff, decimal_value)));
}
#endif
if (warn_if_overflow(my_decimal2binary(E_DEC_FATAL_ERROR & ~E_DEC_OVERFLOW,
decimal_value, ptr, precision, dec)))
{
my_decimal buff;
DBUG_PRINT("info", ("overflow"));
set_value_on_overflow(&buff, decimal_value->sign());
my_decimal2binary(E_DEC_FATAL_ERROR, &buff, ptr, precision, dec);
error= 1;
}
DBUG_EXECUTE("info", print_decimal_buff(decimal_value, (uchar *) ptr,
bin_size););
DBUG_RETURN(error);
}
int Field_new_decimal::store(const char *from, uint length,
CHARSET_INFO *charset_arg)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int err;
my_decimal decimal_value;
DBUG_ENTER("Field_new_decimal::store(char*)");
if ((err= str2my_decimal(E_DEC_FATAL_ERROR &
~(E_DEC_OVERFLOW | E_DEC_BAD_NUM),
from, length, charset_arg,
&decimal_value)) &&
table->in_use->abort_on_warning)
{
/* Because "from" is not NUL-terminated and we use %s in the ER() */
String from_as_str;
from_as_str.copy(from, length, &my_charset_bin);
push_warning_printf(table->in_use, MYSQL_ERROR::WARN_LEVEL_ERROR,
ER_TRUNCATED_WRONG_VALUE_FOR_FIELD,
ER(ER_TRUNCATED_WRONG_VALUE_FOR_FIELD),
"decimal", from_as_str.c_ptr(), field_name,
(ulong) table->in_use->row_count);
DBUG_RETURN(err);
}
switch (err) {
case E_DEC_TRUNCATED:
set_warning(MYSQL_ERROR::WARN_LEVEL_NOTE, WARN_DATA_TRUNCATED, 1);
break;
case E_DEC_OVERFLOW:
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
set_value_on_overflow(&decimal_value, decimal_value.sign());
break;
case E_DEC_BAD_NUM:
{
/* Because "from" is not NUL-terminated and we use %s in the ER() */
String from_as_str;
from_as_str.copy(from, length, &my_charset_bin);
push_warning_printf(table->in_use, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE_FOR_FIELD,
ER(ER_TRUNCATED_WRONG_VALUE_FOR_FIELD),
"decimal", from_as_str.c_ptr(), field_name,
(ulong) table->in_use->row_count);
my_decimal_set_zero(&decimal_value);
break;
}
}
#ifndef DBUG_OFF
char dbug_buff[DECIMAL_MAX_STR_LENGTH+2];
DBUG_PRINT("enter", ("value: %s",
dbug_decimal_as_string(dbug_buff, &decimal_value)));
#endif
store_value(&decimal_value);
DBUG_RETURN(err);
}
/**
@todo
Fix following when double2my_decimal when double2decimal
will return E_DEC_TRUNCATED always correctly
*/
int Field_new_decimal::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
my_decimal decimal_value;
int err;
DBUG_ENTER("Field_new_decimal::store(double)");
err= double2my_decimal(E_DEC_FATAL_ERROR & ~E_DEC_OVERFLOW, nr,
&decimal_value);
/*
TODO: fix following when double2my_decimal when double2decimal
will return E_DEC_TRUNCATED always correctly
*/
if (!err)
{
double nr2;
my_decimal2double(E_DEC_FATAL_ERROR, &decimal_value, &nr2);
if (nr2 != nr)
err= E_DEC_TRUNCATED;
}
if (err)
{
if (check_overflow(err))
set_value_on_overflow(&decimal_value, decimal_value.sign());
/* Only issue a warning if store_value doesn't issue an warning */
table->in_use->got_warning= 0;
}
if (store_value(&decimal_value))
err= 1;
else if (err && !table->in_use->got_warning)
err= warn_if_overflow(err);
DBUG_RETURN(err);
}
int Field_new_decimal::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
my_decimal decimal_value;
int err;
if ((err= int2my_decimal(E_DEC_FATAL_ERROR & ~E_DEC_OVERFLOW,
nr, unsigned_val, &decimal_value)))
{
if (check_overflow(err))
set_value_on_overflow(&decimal_value, decimal_value.sign());
/* Only issue a warning if store_value doesn't issue an warning */
table->in_use->got_warning= 0;
}
if (store_value(&decimal_value))
err= 1;
else if (err && !table->in_use->got_warning)
err= warn_if_overflow(err);
return err;
}
int Field_new_decimal::store_decimal(const my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
return store_value(decimal_value);
}
int Field_new_decimal::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
my_decimal decimal_value;
return store_value(date2my_decimal(ltime, &decimal_value));
}
double Field_new_decimal::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
double dbl;
my_decimal decimal_value;
my_decimal2double(E_DEC_FATAL_ERROR, val_decimal(&decimal_value), &dbl);
return dbl;
}
longlong Field_new_decimal::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
longlong i;
my_decimal decimal_value;
my_decimal2int(E_DEC_FATAL_ERROR, val_decimal(&decimal_value),
unsigned_flag, &i);
return i;
}
my_decimal* Field_new_decimal::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
DBUG_ENTER("Field_new_decimal::val_decimal");
binary2my_decimal(E_DEC_FATAL_ERROR, ptr, decimal_value,
precision, dec);
DBUG_EXECUTE("info", print_decimal_buff(decimal_value, (uchar *) ptr,
bin_size););
DBUG_RETURN(decimal_value);
}
String *Field_new_decimal::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
my_decimal decimal_value;
uint fixed_precision= zerofill ? precision : 0;
my_decimal2string(E_DEC_FATAL_ERROR, val_decimal(&decimal_value),
fixed_precision, dec, '0', val_buffer);
return val_buffer;
}
int Field_new_decimal::cmp(const uchar *a,const uchar*b)
{
return memcmp(a, b, bin_size);
}
void Field_new_decimal::sort_string(uchar *buff,
uint length __attribute__((unused)))
{
memcpy(buff, ptr, bin_size);
}
void Field_new_decimal::sql_type(String &str) const
{
CHARSET_INFO *cs= str.charset();
str.length(cs->cset->snprintf(cs, (char*) str.ptr(), str.alloced_length(),
"decimal(%d,%d)", precision, (int)dec));
add_zerofill_and_unsigned(str);
}
/**
Save the field metadata for new decimal fields.
Saves the precision in the first byte and decimals() in the second
byte of the field metadata array at index of *metadata_ptr and
*(metadata_ptr + 1).
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_new_decimal::do_save_field_metadata(uchar *metadata_ptr)
{
*metadata_ptr= precision;
*(metadata_ptr + 1)= decimals();
return 2;
}
/**
Returns the number of bytes field uses in row-based replication
row packed size.
This method is used in row-based replication to determine the number
of bytes that the field consumes in the row record format. This is
used to skip fields in the master that do not exist on the slave.
@param field_metadata Encoded size in field metadata
@returns The size of the field based on the field metadata.
*/
uint Field_new_decimal::pack_length_from_metadata(uint field_metadata)
{
uint const source_precision= (field_metadata >> 8U) & 0x00ff;
uint const source_decimal= field_metadata & 0x00ff;
uint const source_size= my_decimal_get_binary_size(source_precision,
source_decimal);
return (source_size);
}
/**
Check to see if field size is compatible with destination.
This method is used in row-based replication to verify that the slave's
field size is less than or equal to the master's field size. The
encoded field metadata (from the master or source) is decoded and compared
to the size of this field (the slave or destination).
@param field_metadata Encoded size in field metadata
@retval 0 if this field's size is < the source field's size
@retval 1 if this field's size is >= the source field's size
*/
int Field_new_decimal::compatible_field_size(uint field_metadata,
const Relay_log_info * __attribute__((unused)),
uint16 mflags __attribute__((unused)))
{
int compatible= 0;
uint const source_precision= (field_metadata >> 8U) & 0x00ff;
uint const source_decimal= field_metadata & 0x00ff;
uint const source_size= my_decimal_get_binary_size(source_precision,
source_decimal);
uint const destination_size= row_pack_length();
compatible= (source_size <= destination_size);
if (compatible)
compatible= (source_precision <= precision) &&
(source_decimal <= decimals());
return (compatible);
}
uint Field_new_decimal::is_equal(Create_field *new_field)
{
return ((new_field->sql_type == real_type()) &&
((new_field->flags & UNSIGNED_FLAG) ==
(uint) (flags & UNSIGNED_FLAG)) &&
((new_field->flags & AUTO_INCREMENT_FLAG) ==
(uint) (flags & AUTO_INCREMENT_FLAG)) &&
(new_field->length == max_display_length()) &&
(new_field->decimals == dec));
}
/**
Unpack a decimal field from row data.
This method is used to unpack a decimal or numeric field from a master
whose size of the field is less than that of the slave.
@param to Destination of the data
@param from Source of the data
@param param_data Precision (upper) and decimal (lower) values
@return New pointer into memory based on from + length of the data
*/
const uchar *
Field_new_decimal::unpack(uchar* to, const uchar *from, const uchar *from_end,
uint param_data)
{
if (param_data == 0)
return Field::unpack(to, from, from_end, param_data);
uint from_precision= (param_data & 0xff00) >> 8U;
uint from_decimal= param_data & 0x00ff;
uint length=pack_length();
uint from_pack_len= my_decimal_get_binary_size(from_precision, from_decimal);
uint len= (param_data && (from_pack_len < length)) ?
from_pack_len : length;
if ((from_pack_len && (from_pack_len < length)) ||
(from_precision < precision) ||
(from_decimal < decimals()))
{
/*
If the master's data is smaller than the slave, we need to convert
the binary to decimal then resize the decimal converting it back to
a decimal and write that to the raw data buffer.
*/
decimal_digit_t dec_buf[DECIMAL_MAX_PRECISION];
decimal_t dec_val;
dec_val.len= from_precision;
dec_val.buf= dec_buf;
/*
Note: bin2decimal does not change the length of the field. So it is
just the first step the resizing operation. The second step does the
resizing using the precision and decimals from the slave.
*/
bin2decimal((uchar *)from, &dec_val, from_precision, from_decimal);
decimal2bin(&dec_val, to, precision, decimals());
}
else
{
if (from + len > from_end)
return 0; // Wrong data
memcpy(to, from, len); // Sizes are the same, just copy the data.
}
return from+len;
}
int Field_num::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
longlong v= TIME_to_ulonglong(ltime);
if (ltime->neg == 0)
return store(v, true);
return store(-v, false);
}
/****************************************************************************
** tiny int
****************************************************************************/
int Field_tiny::store(const char *from,uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error;
longlong rnd;
error= get_int(cs, from, len, &rnd, 255, -128, 127);
ptr[0]= unsigned_flag ? (char) (ulonglong) rnd : (char) rnd;
return error;
}
int Field_tiny::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
nr=rint(nr);
if (unsigned_flag)
{
if (nr < 0.0)
{
*ptr=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > 255.0)
{
*ptr= (uchar) 255;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
*ptr= (uchar) nr;
}
else
{
if (nr < -128.0)
{
*ptr= (uchar) -128;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > 127.0)
{
*ptr=127;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
*ptr=(uchar) (int) nr;
}
return error;
}
int Field_tiny::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
if (unsigned_flag)
{
if (nr < 0 && !unsigned_val)
{
*ptr= 0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if ((ulonglong) nr > (ulonglong) 255)
{
*ptr= (char) 255;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
*ptr=(char) nr;
}
else
{
if (nr < 0 && unsigned_val)
nr= 256; // Generate overflow
if (nr < -128)
{
*ptr= (char) -128;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > 127)
{
*ptr=127;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
*ptr=(char) nr;
}
return error;
}
double Field_tiny::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int tmp= unsigned_flag ? (int) ptr[0] :
(int) ((signed char*) ptr)[0];
return (double) tmp;
}
longlong Field_tiny::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int tmp= unsigned_flag ? (int) ptr[0] :
(int) ((signed char*) ptr)[0];
return (longlong) tmp;
}
String *Field_tiny::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
CHARSET_INFO *cs= &my_charset_bin;
uint length;
uint mlength=max(field_length+1,5*cs->mbmaxlen);
val_buffer->alloc(mlength);
char *to=(char*) val_buffer->ptr();
if (unsigned_flag)
length= (uint) cs->cset->long10_to_str(cs,to,mlength, 10,
(long) *ptr);
else
length= (uint) cs->cset->long10_to_str(cs,to,mlength,-10,
(long) *((signed char*) ptr));
val_buffer->length(length);
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
bool Field_tiny::send_binary(Protocol *protocol)
{
return protocol->store_tiny((longlong) (int8) ptr[0]);
}
int Field_tiny::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
signed char a,b;
a=(signed char) a_ptr[0]; b= (signed char) b_ptr[0];
if (unsigned_flag)
return ((uchar) a < (uchar) b) ? -1 : ((uchar) a > (uchar) b) ? 1 : 0;
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_tiny::sort_string(uchar *to,uint length __attribute__((unused)))
{
if (unsigned_flag)
*to= *ptr;
else
to[0] = (char) (ptr[0] ^ (uchar) 128); /* Revers signbit */
}
void Field_tiny::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"tinyint(%d)",(int) field_length));
add_zerofill_and_unsigned(res);
}
/****************************************************************************
Field type short int (2 byte)
****************************************************************************/
int Field_short::store(const char *from,uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int store_tmp;
int error;
longlong rnd;
error= get_int(cs, from, len, &rnd, UINT_MAX16, INT_MIN16, INT_MAX16);
store_tmp= unsigned_flag ? (int) (ulonglong) rnd : (int) rnd;
int2store(ptr, store_tmp);
return error;
}
int Field_short::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
int16 res;
nr=rint(nr);
if (unsigned_flag)
{
if (nr < 0)
{
res=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > (double) UINT_MAX16)
{
res=(int16) UINT_MAX16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
res=(int16) (uint16) nr;
}
else
{
if (nr < (double) INT_MIN16)
{
res=INT_MIN16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > (double) INT_MAX16)
{
res=INT_MAX16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
res=(int16) (int) nr;
}
int2store(ptr,res);
return error;
}
int Field_short::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
int16 res;
if (unsigned_flag)
{
if (nr < 0L && !unsigned_val)
{
res=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if ((ulonglong) nr > (ulonglong) UINT_MAX16)
{
res=(int16) UINT_MAX16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
res=(int16) (uint16) nr;
}
else
{
if (nr < 0 && unsigned_val)
nr= UINT_MAX16+1; // Generate overflow
if (nr < INT_MIN16)
{
res=INT_MIN16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > (longlong) INT_MAX16)
{
res=INT_MAX16;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
res=(int16) nr;
}
int2store(ptr,res);
return error;
}
double Field_short::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
short j;
j=sint2korr(ptr);
return unsigned_flag ? (double) (unsigned short) j : (double) j;
}
longlong Field_short::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
short j;
j=sint2korr(ptr);
return unsigned_flag ? (longlong) (unsigned short) j : (longlong) j;
}
String *Field_short::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
CHARSET_INFO *cs= &my_charset_bin;
uint length;
uint mlength=max(field_length+1,7*cs->mbmaxlen);
val_buffer->alloc(mlength);
char *to=(char*) val_buffer->ptr();
short j;
j=sint2korr(ptr);
if (unsigned_flag)
length=(uint) cs->cset->long10_to_str(cs, to, mlength, 10,
(long) (uint16) j);
else
length=(uint) cs->cset->long10_to_str(cs, to, mlength,-10, (long) j);
val_buffer->length(length);
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
bool Field_short::send_binary(Protocol *protocol)
{
return protocol->store_short(Field_short::val_int());
}
int Field_short::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
short a,b;
a=sint2korr(a_ptr);
b=sint2korr(b_ptr);
if (unsigned_flag)
return ((unsigned short) a < (unsigned short) b) ? -1 :
((unsigned short) a > (unsigned short) b) ? 1 : 0;
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_short::sort_string(uchar *to,uint length __attribute__((unused)))
{
if (unsigned_flag)
to[0] = ptr[1];
else
to[0] = (char) (ptr[1] ^ 128); /* Revers signbit */
to[1] = ptr[0];
}
void Field_short::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"smallint(%d)",(int) field_length));
add_zerofill_and_unsigned(res);
}
/****************************************************************************
Field type medium int (3 byte)
****************************************************************************/
int Field_medium::store(const char *from,uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int store_tmp;
int error;
longlong rnd;
error= get_int(cs, from, len, &rnd, UINT_MAX24, INT_MIN24, INT_MAX24);
store_tmp= unsigned_flag ? (int) (ulonglong) rnd : (int) rnd;
int3store(ptr, store_tmp);
return error;
}
int Field_medium::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
nr=rint(nr);
if (unsigned_flag)
{
if (nr < 0)
{
int3store(ptr,0);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr >= (double) (long) (1L << 24))
{
uint32 tmp=(uint32) (1L << 24)-1L;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
int3store(ptr,(uint32) nr);
}
else
{
if (nr < (double) INT_MIN24)
{
long tmp=(long) INT_MIN24;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > (double) INT_MAX24)
{
long tmp=(long) INT_MAX24;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
int3store(ptr,(long) nr);
}
return error;
}
int Field_medium::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
if (unsigned_flag)
{
if (nr < 0 && !unsigned_val)
{
int3store(ptr,0);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if ((ulonglong) nr >= (ulonglong) (long) (1L << 24))
{
long tmp= (long) (1L << 24)-1L;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
int3store(ptr,(uint32) nr);
}
else
{
if (nr < 0 && unsigned_val)
nr= (ulonglong) (long) (1L << 24); // Generate overflow
if (nr < (longlong) INT_MIN24)
{
long tmp= (long) INT_MIN24;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (nr > (longlong) INT_MAX24)
{
long tmp=(long) INT_MAX24;
int3store(ptr,tmp);
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
int3store(ptr,(long) nr);
}
return error;
}
double Field_medium::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
long j= unsigned_flag ? (long) uint3korr(ptr) : sint3korr(ptr);
return (double) j;
}
longlong Field_medium::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
long j= unsigned_flag ? (long) uint3korr(ptr) : sint3korr(ptr);
return (longlong) j;
}
String *Field_medium::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
CHARSET_INFO *cs= &my_charset_bin;
uint length;
uint mlength=max(field_length+1,10*cs->mbmaxlen);
val_buffer->alloc(mlength);
char *to=(char*) val_buffer->ptr();
long j= unsigned_flag ? (long) uint3korr(ptr) : sint3korr(ptr);
length=(uint) cs->cset->long10_to_str(cs,to,mlength,-10,j);
val_buffer->length(length);
if (zerofill)
prepend_zeros(val_buffer); /* purecov: inspected */
return val_buffer;
}
bool Field_medium::send_binary(Protocol *protocol)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return protocol->store_long(Field_medium::val_int());
}
int Field_medium::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
long a,b;
if (unsigned_flag)
{
a=uint3korr(a_ptr);
b=uint3korr(b_ptr);
}
else
{
a=sint3korr(a_ptr);
b=sint3korr(b_ptr);
}
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_medium::sort_string(uchar *to,uint length __attribute__((unused)))
{
if (unsigned_flag)
to[0] = ptr[2];
else
to[0] = (uchar) (ptr[2] ^ 128); /* Revers signbit */
to[1] = ptr[1];
to[2] = ptr[0];
}
void Field_medium::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"mediumint(%d)",(int) field_length));
add_zerofill_and_unsigned(res);
}
/****************************************************************************
** long int
****************************************************************************/
int Field_long::store(const char *from,uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
long store_tmp;
int error;
longlong rnd;
error= get_int(cs, from, len, &rnd, UINT_MAX32, INT_MIN32, INT_MAX32);
store_tmp= unsigned_flag ? (long) (ulonglong) rnd : (long) rnd;
int4store(ptr, store_tmp);
return error;
}
int Field_long::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
int32 res;
nr=rint(nr);
if (unsigned_flag)
{
if (nr < 0)
{
res=0;
error= 1;
}
else if (nr > (double) UINT_MAX32)
{
res= UINT_MAX32;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else
res=(int32) (ulong) nr;
}
else
{
if (nr < (double) INT_MIN32)
{
res=(int32) INT_MIN32;
error= 1;
}
else if (nr > (double) INT_MAX32)
{
res=(int32) INT_MAX32;
error= 1;
}
else
res=(int32) (longlong) nr;
}
if (error)
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
int4store(ptr,res);
return error;
}
int Field_long::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
int32 res;
if (unsigned_flag)
{
if (nr < 0 && !unsigned_val)
{
res=0;
error= 1;
}
else if ((ulonglong) nr >= (LL(1) << 32))
{
res=(int32) (uint32) ~0L;
error= 1;
}
else
res=(int32) (uint32) nr;
}
else
{
if (nr < 0 && unsigned_val)
nr= ((longlong) INT_MAX32) + 1; // Generate overflow
if (nr < (longlong) INT_MIN32)
{
res=(int32) INT_MIN32;
error= 1;
}
else if (nr > (longlong) INT_MAX32)
{
res=(int32) INT_MAX32;
error= 1;
}
else
res=(int32) nr;
}
if (error)
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
int4store(ptr,res);
return error;
}
double Field_long::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int32 j;
j=sint4korr(ptr);
return unsigned_flag ? (double) (uint32) j : (double) j;
}
longlong Field_long::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int32 j;
/* See the comment in Field_long::store(long long) */
DBUG_ASSERT(table->in_use == current_thd);
j=sint4korr(ptr);
return unsigned_flag ? (longlong) (uint32) j : (longlong) j;
}
String *Field_long::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
CHARSET_INFO *cs= &my_charset_bin;
uint length;
uint mlength=max(field_length+1,12*cs->mbmaxlen);
val_buffer->alloc(mlength);
char *to=(char*) val_buffer->ptr();
int32 j;
j=sint4korr(ptr);
if (unsigned_flag)
length=cs->cset->long10_to_str(cs,to,mlength, 10,(long) (uint32)j);
else
length=cs->cset->long10_to_str(cs,to,mlength,-10,(long) j);
val_buffer->length(length);
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
bool Field_long::send_binary(Protocol *protocol)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return protocol->store_long(Field_long::val_int());
}
int Field_long::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
int32 a,b;
a=sint4korr(a_ptr);
b=sint4korr(b_ptr);
if (unsigned_flag)
return ((uint32) a < (uint32) b) ? -1 : ((uint32) a > (uint32) b) ? 1 : 0;
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_long::sort_string(uchar *to,uint length __attribute__((unused)))
{
if (unsigned_flag)
to[0] = ptr[3];
else
to[0] = (char) (ptr[3] ^ 128); /* Revers signbit */
to[1] = ptr[2];
to[2] = ptr[1];
to[3] = ptr[0];
}
void Field_long::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"int(%d)",(int) field_length));
add_zerofill_and_unsigned(res);
}
/****************************************************************************
Field type longlong int (8 bytes)
****************************************************************************/
int Field_longlong::store(const char *from,uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
char *end;
ulonglong tmp;
tmp= cs->cset->strntoull10rnd(cs,from,len,unsigned_flag,&end,&error);
if (error == MY_ERRNO_ERANGE)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
else if (table->in_use->count_cuted_fields &&
check_int(cs, from, len, end, error))
error= 1;
else
error= 0;
int8store(ptr,tmp);
return error;
}
int Field_longlong::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
bool error;
longlong res;
res= double_to_longlong(nr, unsigned_flag, &error);
if (error)
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
int8store(ptr,res);
return error;
}
int Field_longlong::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
if (nr < 0) // Only possible error
{
/*
if field is unsigned and value is signed (< 0) or
if field is signed and value is unsigned we have an overflow
*/
if (unsigned_flag != unsigned_val)
{
nr= unsigned_flag ? (ulonglong) 0 : (ulonglong) LONGLONG_MAX;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
error= 1;
}
}
int8store(ptr,nr);
return error;
}
double Field_longlong::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
longlong j;
j=sint8korr(ptr);
/* The following is open coded to avoid a bug in gcc 3.3 */
if (unsigned_flag)
{
ulonglong tmp= (ulonglong) j;
return ulonglong2double(tmp);
}
return (double) j;
}
longlong Field_longlong::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
longlong j;
j=sint8korr(ptr);
return j;
}
String *Field_longlong::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
CHARSET_INFO *cs= &my_charset_bin;
uint length;
uint mlength=max(field_length+1,22*cs->mbmaxlen);
val_buffer->alloc(mlength);
char *to=(char*) val_buffer->ptr();
longlong j;
j=sint8korr(ptr);
length=(uint) (cs->cset->longlong10_to_str)(cs,to,mlength,
unsigned_flag ? 10 : -10, j);
val_buffer->length(length);
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
bool Field_longlong::send_binary(Protocol *protocol)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return protocol->store_longlong(Field_longlong::val_int(), unsigned_flag);
}
int Field_longlong::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
longlong a,b;
a=sint8korr(a_ptr);
b=sint8korr(b_ptr);
if (unsigned_flag)
return ((ulonglong) a < (ulonglong) b) ? -1 :
((ulonglong) a > (ulonglong) b) ? 1 : 0;
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_longlong::sort_string(uchar *to,uint length __attribute__((unused)))
{
if (unsigned_flag)
to[0] = ptr[7];
else
to[0] = (char) (ptr[7] ^ 128); /* Revers signbit */
to[1] = ptr[6];
to[2] = ptr[5];
to[3] = ptr[4];
to[4] = ptr[3];
to[5] = ptr[2];
to[6] = ptr[1];
to[7] = ptr[0];
}
void Field_longlong::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"bigint(%d)",(int) field_length));
add_zerofill_and_unsigned(res);
}
/*
Floating-point numbers
*/
/****************************************************************************
single precision float
****************************************************************************/
int Field_float::store(const char *from,uint len,CHARSET_INFO *cs)
{
int error;
char *end;
double nr= my_strntod(cs,(char*) from,len,&end,&error);
if (error || (!len || ((uint) (end-from) != len &&
table->in_use->count_cuted_fields)))
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN,
(error ? ER_WARN_DATA_OUT_OF_RANGE : WARN_DATA_TRUNCATED), 1);
error= error ? 1 : 2;
}
Field_float::store(nr);
return error;
}
int Field_float::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= truncate_double(&nr, field_length,
not_fixed ? NOT_FIXED_DEC : dec,
unsigned_flag, FLT_MAX);
if (error)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
if (error < 0) // Wrong double value
{
error= 1;
set_null();
}
}
float j= (float)nr;
float4store(ptr,j);
return error;
}
int Field_float::store(longlong nr, bool unsigned_val)
{
return Field_float::store(unsigned_val ? ulonglong2double((ulonglong) nr) :
(double) nr);
}
double Field_float::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
float j;
float4get(j,ptr);
return ((double) j);
}
longlong Field_float::val_int(void)
{
float j;
float4get(j,ptr);
return (longlong) rint(j);
}
String *Field_float::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
float nr;
float4get(nr,ptr);
uint to_length=max(field_length,70);
val_buffer->alloc(to_length);
char *to=(char*) val_buffer->ptr();
if (dec >= NOT_FIXED_DEC)
{
sprintf(to,"%-*.*g",(int) field_length,FLT_DIG,nr);
to=strcend(to,' ');
*to=0;
}
else
{
#ifdef HAVE_FCONVERT
char buff[70],*pos=buff;
int decpt,sign,tmp_dec=dec;
VOID(sfconvert(&nr,tmp_dec,&decpt,&sign,buff));
if (sign)
{
*to++='-';
}
if (decpt < 0)
{ /* val_buffer is < 0 */
*to++='0';
if (!tmp_dec)
goto end;
*to++='.';
if (-decpt > tmp_dec)
decpt= - (int) tmp_dec;
tmp_dec=(uint) ((int) tmp_dec+decpt);
while (decpt++ < 0)
*to++='0';
}
else if (decpt == 0)
{
*to++= '0';
if (!tmp_dec)
goto end;
*to++='.';
}
else
{
while (decpt-- > 0)
*to++= *pos++;
if (!tmp_dec)
goto end;
*to++='.';
}
while (tmp_dec--)
*to++= *pos++;
#else
#ifdef HAVE_SNPRINTF
to[to_length-1]=0; // Safety
snprintf(to,to_length-1,"%.*f",dec,nr);
to=strend(to);
#else
to+= my_sprintf(to,(to,"%.*f",dec,nr));
#endif
#endif
}
#ifdef HAVE_FCONVERT
end:
#endif
val_buffer->length((uint) (to-val_buffer->ptr()));
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
int Field_float::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
float a,b;
float4get(a,a_ptr);
float4get(b,b_ptr);
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
#define FLT_EXP_DIG (sizeof(float)*8-FLT_MANT_DIG)
void Field_float::sort_string(uchar *to,uint length __attribute__((unused)))
{
float nr;
float4get(nr,ptr);
uchar *tmp= to;
if (nr == (float) 0.0)
{ /* Change to zero string */
tmp[0]=(uchar) 128;
bzero((char*) tmp+1,sizeof(nr)-1);
}
else
{
#ifdef WORDS_BIGENDIAN
memcpy_fixed(tmp,&nr,sizeof(nr));
#else
tmp[0]= ptr[3]; tmp[1]=ptr[2]; tmp[2]= ptr[1]; tmp[3]=ptr[0];
#endif
if (tmp[0] & 128) /* Negative */
{ /* make complement */
uint i;
for (i=0 ; i < sizeof(nr); i++)
tmp[i]= (uchar) (tmp[i] ^ (uchar) 255);
}
else
{
ushort exp_part=(((ushort) tmp[0] << 8) | (ushort) tmp[1] |
(ushort) 32768);
exp_part+= (ushort) 1 << (16-1-FLT_EXP_DIG);
tmp[0]= (uchar) (exp_part >> 8);
tmp[1]= (uchar) exp_part;
}
}
}
bool Field_float::send_binary(Protocol *protocol)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return protocol->store((float) Field_float::val_real(), dec, (String*) 0);
}
/**
Save the field metadata for float fields.
Saves the pack length in the first byte.
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_float::do_save_field_metadata(uchar *metadata_ptr)
{
*metadata_ptr= pack_length();
return 1;
}
void Field_float::sql_type(String &res) const
{
if (dec == NOT_FIXED_DEC)
{
res.set_ascii(STRING_WITH_LEN("float"));
}
else
{
CHARSET_INFO *cs= res.charset();
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"float(%d,%d)",(int) field_length,dec));
}
add_zerofill_and_unsigned(res);
}
/****************************************************************************
double precision floating point numbers
****************************************************************************/
int Field_double::store(const char *from,uint len,CHARSET_INFO *cs)
{
int error;
char *end;
double nr= my_strntod(cs,(char*) from, len, &end, &error);
if (error || (!len || ((uint) (end-from) != len &&
table->in_use->count_cuted_fields)))
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN,
(error ? ER_WARN_DATA_OUT_OF_RANGE : WARN_DATA_TRUNCATED), 1);
error= error ? 1 : 2;
}
Field_double::store(nr);
return error;
}
int Field_double::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= truncate_double(&nr, field_length,
not_fixed ? NOT_FIXED_DEC : dec,
unsigned_flag, DBL_MAX);
if (error)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
if (error < 0) // Wrong double value
{
error= 1;
set_null();
}
}
float8store(ptr,nr);
return error;
}
int Field_double::store(longlong nr, bool unsigned_val)
{
return Field_double::store(unsigned_val ? ulonglong2double((ulonglong) nr) :
(double) nr);
}
/*
If a field has fixed length, truncate the double argument pointed to by 'nr'
appropriately.
Also ensure that the argument is within [-max_value; max_value] range.
return
0 ok
-1 Illegal double value
1 Value was truncated
*/
int truncate_double(double *nr, uint field_length, uint dec,
bool unsigned_flag, double max_value)
{
int error= 0;
double res= *nr;
if (isnan(res))
{
*nr= 0;
return -1;
}
else if (unsigned_flag && res < 0)
{
*nr= 0;
return 1;
}
if (dec < NOT_FIXED_DEC)
{
uint order= field_length - dec;
uint step= array_elements(log_10) - 1;
max_value= 1.0;
for (; order > step; order-= step)
max_value*= log_10[step];
max_value*= log_10[order];
max_value-= 1.0 / log_10[dec];
double tmp= rint((res - floor(res)) * log_10[dec]) / log_10[dec];
res= floor(res) + tmp;
}
if (res < -max_value)
{
res= -max_value;
error= 1;
}
else if (res > max_value)
{
res= max_value;
error= 1;
}
*nr= res;
return error;
}
/*
Convert double to longlong / ulonglong.
If double is outside of range, adjust return value and set error.
SYNOPSIS
double_to_longlong()
nr Number to convert
unsigned_flag 1 if result is unsigned
error Will be set to 1 in case of overflow.
*/
longlong double_to_longlong(double nr, bool unsigned_flag, bool *error)
{
longlong res;
*error= 0;
nr= rint(nr);
if (unsigned_flag)
{
if (nr < 0)
{
res= 0;
*error= 1;
}
else if (nr >= (double) ULONGLONG_MAX)
{
res= ~(longlong) 0;
*error= 1;
}
else
res= (longlong) double2ulonglong(nr);
}
else
{
if (nr <= (double) LONGLONG_MIN)
{
res= LONGLONG_MIN;
*error= (nr < (double) LONGLONG_MIN);
}
else if (nr >= (double) (ulonglong) LONGLONG_MAX)
{
res= LONGLONG_MAX;
*error= (nr > (double) LONGLONG_MAX);
}
else
res= (longlong) nr;
}
return res;
}
int Field_real::store_decimal(const my_decimal *dm)
{
double dbl;
my_decimal2double(E_DEC_FATAL_ERROR, dm, &dbl);
return store(dbl);
}
int Field_real::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
return store(TIME_to_double(ltime));
}
double Field_double::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
double j;
float8get(j,ptr);
return j;
}
longlong Field_double::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
double j;
longlong res;
bool error;
float8get(j,ptr);
res= double_to_longlong(j, 0, &error);
if (error)
{
char buf[DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE];
String tmp(buf, sizeof(buf), &my_charset_latin1), *str;
str= val_str(&tmp, 0);
push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE,
ER(ER_TRUNCATED_WRONG_VALUE), "INTEGER",
str->c_ptr());
}
return res;
}
my_decimal *Field_real::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
double2my_decimal(E_DEC_FATAL_ERROR, val_real(), decimal_value);
return decimal_value;
}
bool Field_real::get_date(MYSQL_TIME *ltime,uint fuzzydate)
{
ASSERT_COLUMN_MARKED_FOR_READ;
double nr= val_real();
return double_to_datetime_with_warn(nr, ltime, fuzzydate, field_name);
}
String *Field_double::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
double nr;
float8get(nr,ptr);
uint to_length= DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE;
val_buffer->alloc(to_length);
char *to=(char*) val_buffer->ptr();
if (dec >= NOT_FIXED_DEC)
{
sprintf(to,"%-*.*g",(int) field_length,DBL_DIG,nr);
to=strcend(to,' ');
}
else
{
#ifdef HAVE_FCONVERT
char buff[DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE];
char *pos= buff;
int decpt,sign,tmp_dec=dec;
VOID(fconvert(nr,tmp_dec,&decpt,&sign,buff));
if (sign)
{
*to++='-';
}
if (decpt < 0)
{ /* val_buffer is < 0 */
*to++='0';
if (!tmp_dec)
goto end;
*to++='.';
if (-decpt > tmp_dec)
decpt= - (int) tmp_dec;
tmp_dec=(uint) ((int) tmp_dec+decpt);
while (decpt++ < 0)
*to++='0';
}
else if (decpt == 0)
{
*to++= '0';
if (!tmp_dec)
goto end;
*to++='.';
}
else
{
while (decpt-- > 0)
*to++= *pos++;
if (!tmp_dec)
goto end;
*to++='.';
}
while (tmp_dec--)
*to++= *pos++;
#else
#ifdef HAVE_SNPRINTF
to[to_length-1]=0; // Safety
snprintf(to,to_length-1,"%.*f",dec,nr);
to=strend(to);
#else
to+= my_sprintf(to,(to,"%.*f",dec,nr));
#endif
#endif
}
#ifdef HAVE_FCONVERT
end:
#endif
val_buffer->length((uint) (to-val_buffer->ptr()));
if (zerofill)
prepend_zeros(val_buffer);
return val_buffer;
}
bool Field_double::send_binary(Protocol *protocol)
{
return protocol->store((double) Field_double::val_real(), dec, (String*) 0);
}
int Field_double::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
double a,b;
float8get(a,a_ptr);
float8get(b,b_ptr);
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
#define DBL_EXP_DIG (sizeof(double)*8-DBL_MANT_DIG)
/* The following should work for IEEE */
void Field_double::sort_string(uchar *to,uint length __attribute__((unused)))
{
double nr;
float8get(nr,ptr);
change_double_for_sort(nr, to);
}
/**
Save the field metadata for double fields.
Saves the pack length in the first byte of the field metadata array
at index of *metadata_ptr.
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_double::do_save_field_metadata(uchar *metadata_ptr)
{
*metadata_ptr= pack_length();
return 1;
}
void Field_double::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
if (dec == NOT_FIXED_DEC)
{
res.set_ascii(STRING_WITH_LEN("double"));
}
else
{
res.length(cs->cset->snprintf(cs,(char*) res.ptr(),res.alloced_length(),
"double(%d,%d)",(int) field_length,dec));
}
add_zerofill_and_unsigned(res);
}
/**
TIMESTAMP type holds datetime values in range from 1970-01-01 00:00:01 UTC to
2038-01-01 00:00:00 UTC stored as number of seconds since Unix
Epoch in UTC.
Up to one of timestamps columns in the table can be automatically
set on row update and/or have NOW() as default value.
TABLE::timestamp_field points to Field object for such timestamp with
auto-set-on-update. TABLE::time_stamp holds offset in record + 1 for this
field, and is used by handler code which performs updates required.
Actually SQL-99 says that we should allow niladic functions (like NOW())
as defaults for any field. Current limitations (only NOW() and only
for one TIMESTAMP field) are because of restricted binary .frm format
and should go away in the future.
Also because of this limitation of binary .frm format we use 5 different
unireg_check values with TIMESTAMP field to distinguish various cases of
DEFAULT or ON UPDATE values. These values are:
TIMESTAMP_OLD_FIELD - old timestamp, if there was not any fields with
auto-set-on-update (or now() as default) in this table before, then this
field has NOW() as default and is updated when row changes, else it is
field which has 0 as default value and is not automatically updated.
TIMESTAMP_DN_FIELD - field with NOW() as default but not set on update
automatically (TIMESTAMP DEFAULT NOW())
TIMESTAMP_UN_FIELD - field which is set on update automatically but has not
NOW() as default (but it may has 0 or some other const timestamp as
default) (TIMESTAMP ON UPDATE NOW()).
TIMESTAMP_DNUN_FIELD - field which has now() as default and is auto-set on
update. (TIMESTAMP DEFAULT NOW() ON UPDATE NOW())
NONE - field which is not auto-set on update with some other than NOW()
default value (TIMESTAMP DEFAULT 0).
Note that TIMESTAMP_OLD_FIELDs are never created explicitly now, they are
left only for preserving ability to read old tables. Such fields replaced
with their newer analogs in CREATE TABLE and in SHOW CREATE TABLE. This is
because we want to prefer NONE unireg_check before TIMESTAMP_OLD_FIELD for
"TIMESTAMP DEFAULT 'Const'" field. (Old timestamps allowed such
specification too but ignored default value for first timestamp, which of
course is non-standard.) In most cases user won't notice any change, only
exception is different behavior of old/new timestamps during ALTER TABLE.
*/
Field_timestamp::Field_timestamp(uchar *ptr_arg, uint32 len_arg,
uchar *null_ptr_arg, uchar null_bit_arg,
enum utype unireg_check_arg,
const char *field_name_arg,
TABLE_SHARE *share,
CHARSET_INFO *cs)
:Field_str(ptr_arg, len_arg, null_ptr_arg, null_bit_arg,
unireg_check_arg, field_name_arg, cs)
{
/* For 4.0 MYD and 4.0 InnoDB compatibility */
flags|= UNSIGNED_FLAG;
if (unireg_check != NONE && !share->timestamp_field)
{
/* This timestamp has auto-update */
share->timestamp_field= this;
flags|= TIMESTAMP_FLAG;
if (unireg_check != TIMESTAMP_DN_FIELD)
flags|= ON_UPDATE_NOW_FLAG;
}
}
/**
Get auto-set type for TIMESTAMP field.
Returns value indicating during which operations this TIMESTAMP field
should be auto-set to current timestamp.
*/
timestamp_auto_set_type Field_timestamp::get_auto_set_type() const
{
switch (unireg_check)
{
case TIMESTAMP_DN_FIELD:
return TIMESTAMP_AUTO_SET_ON_INSERT;
case TIMESTAMP_UN_FIELD:
return TIMESTAMP_AUTO_SET_ON_UPDATE;
case TIMESTAMP_OLD_FIELD:
/*
Although we can have several such columns in legacy tables this
function should be called only for first of them (i.e. the one
having auto-set property).
*/
DBUG_ASSERT(table->timestamp_field == this);
/* Fall-through */
case TIMESTAMP_DNUN_FIELD:
return TIMESTAMP_AUTO_SET_ON_BOTH;
default:
/*
Normally this function should not be called for TIMESTAMPs without
auto-set property.
*/
DBUG_ASSERT(0);
return TIMESTAMP_NO_AUTO_SET;
}
}
my_time_t Field_timestamp::get_timestamp(ulong *sec_part) const
{
ASSERT_COLUMN_MARKED_FOR_READ;
*sec_part= 0;
return sint4korr(ptr);
}
int Field_timestamp::store_TIME_with_warning(THD *thd, MYSQL_TIME *l_time,
const Lazy_string *str,
bool was_cut,
bool have_smth_to_conv)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
uint error = 0;
my_time_t timestamp;
if (was_cut || !have_smth_to_conv)
{
error= 1;
set_datetime_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED,
str, MYSQL_TIMESTAMP_DATETIME, 1);
}
/* Only convert a correct date (not a zero date) */
if (have_smth_to_conv && l_time->month)
{
uint conversion_error;
timestamp= TIME_to_timestamp(thd, l_time, &conversion_error);
if (timestamp == 0 && l_time->second_part == 0)
conversion_error= ER_WARN_DATA_OUT_OF_RANGE;
if (conversion_error)
{
set_datetime_warning(MYSQL_ERROR::WARN_LEVEL_WARN, conversion_error,
str, MYSQL_TIMESTAMP_DATETIME, !error);
error= 1;
}
}
else
{
timestamp= 0;
l_time->second_part= 0;
}
store_TIME(timestamp, l_time->second_part);
return error;
}
int Field_timestamp::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
THD *thd= table->in_use;
int unused;
MYSQL_TIME l_time= *ltime;
Lazy_string_time str(ltime);
bool valid= !check_date(&l_time, pack_time(&l_time) != 0,
(thd->variables.sql_mode & MODE_NO_ZERO_DATE) |
MODE_NO_ZERO_IN_DATE, &unused);
return store_TIME_with_warning(thd, &l_time, &str, false, valid);
}
int Field_timestamp::store(const char *from,uint len,CHARSET_INFO *cs)
{
MYSQL_TIME l_time;
int error;
int have_smth_to_conv;
Lazy_string_str str(from, len);
THD *thd= table->in_use;
/* We don't want to store invalid or fuzzy datetime values in TIMESTAMP */
have_smth_to_conv= (str_to_datetime(from, len, &l_time,
(thd->variables.sql_mode &
MODE_NO_ZERO_DATE) |
MODE_NO_ZERO_IN_DATE, &error) >
MYSQL_TIMESTAMP_ERROR);
return store_TIME_with_warning(thd, &l_time, &str, error, have_smth_to_conv);
}
int Field_timestamp::store(double nr)
{
MYSQL_TIME l_time;
int error;
Lazy_string_double str(nr);
THD *thd= table->in_use;
longlong tmp= double_to_datetime(nr, &l_time, (thd->variables.sql_mode &
MODE_NO_ZERO_DATE) |
MODE_NO_ZERO_IN_DATE, &error);
return store_TIME_with_warning(thd, &l_time, &str, error, tmp != -1);
}
int Field_timestamp::store(longlong nr, bool unsigned_val)
{
MYSQL_TIME l_time;
int error;
Lazy_string_num str(nr);
THD *thd= table->in_use;
/* We don't want to store invalid or fuzzy datetime values in TIMESTAMP */
longlong tmp= number_to_datetime(nr, 0, &l_time, (thd->variables.sql_mode &
MODE_NO_ZERO_DATE) |
MODE_NO_ZERO_IN_DATE, &error);
return store_TIME_with_warning(thd, &l_time, &str, error, tmp != LL(-1));
}
double Field_timestamp::val_real(void)
{
return (double) Field_timestamp::val_int();
}
longlong Field_timestamp::val_int(void)
{
MYSQL_TIME time_tmp;
THD *thd= table->in_use;
thd->time_zone_used= 1;
ulong sec_part;
my_time_t temp= get_timestamp(&sec_part);
/*
Field_timestamp() and Field_timestamp_hres() shares this code.
This is why are also testing sec_part below.
*/
if (temp == 0 && sec_part == 0)
return(0);
thd->variables.time_zone->gmt_sec_to_TIME(&time_tmp, (my_time_t)temp);
return time_tmp.year * LL(10000000000) + time_tmp.month * LL(100000000) +
time_tmp.day * 1000000L + time_tmp.hour * 10000L +
time_tmp.minute * 100 + time_tmp.second;
}
String *Field_timestamp::val_str(String *val_buffer, String *val_ptr)
{
uint32 temp2;
THD *thd= table->in_use;
MYSQL_TIME time_tmp;
char *to;
val_buffer->alloc(field_length+1);
to= (char*) val_buffer->ptr();
val_buffer->length(field_length);
thd->time_zone_used= 1;
ulong sec_part;
my_time_t temp= get_timestamp(&sec_part);
if (temp == 0 && sec_part == 0)
{ /* Zero time is "000000" */
val_ptr->set(zero_timestamp, field_length, &my_charset_bin);
return val_ptr;
}
val_buffer->set_charset(&my_charset_bin); // Safety
thd->variables.time_zone->gmt_sec_to_TIME(&time_tmp,(my_time_t)temp);
temp= time_tmp.year % 100;
if (temp < YY_PART_YEAR - 1)
{
*to++= '2';
*to++= '0';
}
else
{
*to++= '1';
*to++= '9';
}
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to++= '-';
temp=time_tmp.month;
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to++= '-';
temp=time_tmp.day;
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to++= ' ';
temp=time_tmp.hour;
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to++= ':';
temp=time_tmp.minute;
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to++= ':';
temp=time_tmp.second;
temp2=temp/10; temp=temp-temp2*10;
*to++= (char) ('0'+(char) (temp2));
*to++= (char) ('0'+(char) (temp));
*to= 0;
return val_buffer;
}
bool Field_timestamp::get_date(MYSQL_TIME *ltime, uint fuzzydate)
{
THD *thd= table->in_use;
thd->time_zone_used= 1;
ulong sec_part;
my_time_t temp= get_timestamp(&sec_part);
if (temp == 0 && sec_part == 0)
{ /* Zero time is "000000" */
if (fuzzydate & TIME_NO_ZERO_DATE)
return 1;
bzero((char*) ltime,sizeof(*ltime));
}
else
{
thd->variables.time_zone->gmt_sec_to_TIME(ltime, (my_time_t)temp);
ltime->second_part= sec_part;
}
return 0;
}
bool Field_timestamp::send_binary(Protocol *protocol)
{
MYSQL_TIME ltime;
Field_timestamp::get_date(<ime, 0);
return protocol->store(<ime, 0);
}
int Field_timestamp::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
int32 a,b;
a=sint4korr(a_ptr);
b=sint4korr(b_ptr);
return ((uint32) a < (uint32) b) ? -1 : ((uint32) a > (uint32) b) ? 1 : 0;
}
void Field_timestamp::sort_string(uchar *to,uint length __attribute__((unused)))
{
to[0] = ptr[3];
to[1] = ptr[2];
to[2] = ptr[1];
to[3] = ptr[0];
}
void Field_timestamp::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("timestamp"));
}
int Field_timestamp::set_time()
{
THD *thd= table->in_use;
set_notnull();
store_TIME(thd->query_start(), 0);
return 0;
}
void Field_timestamp_hires::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs, (char*) res.ptr(), res.alloced_length(),
"timestamp(%u)", dec));
}
#ifdef NOT_USED
static void store_native(ulonglong num, uchar *to, uint bytes)
{
switch(bytes) {
case 1: *to= (uchar)num; break;
case 2: shortstore(to, (ushort)num); break;
case 3: int3store(to, num); /* Sic!*/ break;
case 4: longstore(to, (ulong)num); break;
case 8: longlongstore(to, num); break;
default: DBUG_ASSERT(0);
}
}
static longlong read_native(const uchar *from, uint bytes)
{
switch(bytes) {
case 1: return from[0];
case 2: { uint16 tmp; shortget(tmp, from); return tmp; }
case 3: return uint3korr(from);
case 4: { uint32 tmp; longget(tmp, from); return tmp; }
case 8: { longlong tmp; longlongget(tmp, from); return tmp; }
default: DBUG_ASSERT(0); return 0;
}
}
#endif
static void store_lowendian(ulonglong num, uchar *to, uint bytes)
{
switch(bytes) {
case 1: *to= (uchar)num; break;
case 2: int2store(to, num); break;
case 3: int3store(to, num); break;
case 4: int4store(to, num); break;
case 8: int8store(to, num); break;
default: DBUG_ASSERT(0);
}
}
static longlong read_lowendian(const uchar *from, uint bytes)
{
switch(bytes) {
case 1: return from[0];
case 2: return uint2korr(from);
case 3: return uint3korr(from);
case 4: return uint4korr(from);
case 8: return sint8korr(from);
default: DBUG_ASSERT(0); return 0;
}
}
static void store_bigendian(ulonglong num, uchar *to, uint bytes)
{
switch(bytes) {
case 1: mi_int1store(to, num); break;
case 2: mi_int2store(to, num); break;
case 3: mi_int3store(to, num); break;
case 4: mi_int4store(to, num); break;
case 5: mi_int5store(to, num); break;
case 6: mi_int6store(to, num); break;
case 7: mi_int7store(to, num); break;
case 8: mi_int8store(to, num); break;
default: DBUG_ASSERT(0);
}
}
static longlong read_bigendian(const uchar *from, uint bytes)
{
switch(bytes) {
case 1: return mi_uint1korr(from);
case 2: return mi_uint2korr(from);
case 3: return mi_uint3korr(from);
case 4: return mi_uint4korr(from);
case 5: return mi_uint5korr(from);
case 6: return mi_uint6korr(from);
case 7: return mi_uint7korr(from);
case 8: return mi_sint8korr(from);
default: DBUG_ASSERT(0); return 0;
}
}
void Field_timestamp_hires::store_TIME(my_time_t timestamp, ulong sec_part)
{
mi_int4store(ptr, timestamp);
store_bigendian(sec_part_shift(sec_part, dec), ptr+4, sec_part_bytes[dec]);
}
my_time_t Field_timestamp_hires::get_timestamp(ulong *sec_part) const
{
ASSERT_COLUMN_MARKED_FOR_READ;
*sec_part= (long)sec_part_unshift(read_bigendian(ptr+4, sec_part_bytes[dec]), dec);
return mi_uint4korr(ptr);
}
double Field_timestamp_hires::val_real(void)
{
MYSQL_TIME time_tmp;
THD *thd= table->in_use;
thd->time_zone_used= 1;
ulong sec_part;
my_time_t temp= get_timestamp(&sec_part);
if (temp == 0 && sec_part == 0)
return(0);
thd->variables.time_zone->gmt_sec_to_TIME(&time_tmp, (my_time_t)temp);
return time_tmp.year * 1e10 + time_tmp.month * 1e8 +
time_tmp.day * 1e6 + time_tmp.hour * 1e4 +
time_tmp.minute * 1e2 + time_tmp.second + sec_part*1e-6;
}
String *Field_timestamp_hires::val_str(String *val_buffer, String *val_ptr)
{
String *tmp= Field_timestamp::val_str(val_buffer, val_ptr);
ulong sec_part= (ulong)read_bigendian(ptr+4, sec_part_bytes[dec]);
if (tmp->ptr() == zero_timestamp)
return tmp;
char *buf= const_cast<char*>(tmp->ptr() + MAX_DATETIME_WIDTH);
for (int i=dec; i>0; i--, sec_part/=10)
buf[i]= (char)(sec_part % 10) + '0';
buf[0]= '.';
buf[dec+1]= 0;
return tmp;
}
my_decimal *Field_timestamp_hires::val_decimal(my_decimal *d)
{
MYSQL_TIME ltime;
get_date(<ime, 0);
longlong intg= TIME_to_ulonglong(<ime);
return seconds2my_decimal(ltime.neg, intg, ltime.second_part, d);
}
int Field_timestamp_hires::store_decimal(const my_decimal *d)
{
ulonglong nr;
ulong sec_part;
int error;
MYSQL_TIME ltime;
longlong tmp;
THD *thd= table->in_use;
Lazy_string_decimal str(d);
if (my_decimal2seconds(d, &nr, &sec_part))
{
tmp= -1;
error= 2;
}
else
tmp= number_to_datetime(nr, sec_part, <ime, TIME_NO_ZERO_IN_DATE |
(thd->variables.sql_mode &
MODE_NO_ZERO_DATE), &error);
return store_TIME_with_warning(thd, <ime, &str, error, tmp != -1);
}
int Field_timestamp_hires::set_time()
{
THD *thd= table->in_use;
set_notnull();
store_TIME(thd->query_start(), thd->query_start_sec_part());
return 0;
}
bool Field_timestamp_hires::send_binary(Protocol *protocol)
{
MYSQL_TIME ltime;
Field_timestamp::get_date(<ime, 0);
return protocol->store(<ime, dec);
}
int Field_timestamp_hires::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
int32 a,b;
ulong a_sec_part, b_sec_part;
a= mi_uint4korr(a_ptr);
a_sec_part= (ulong)read_bigendian(a_ptr+4, sec_part_bytes[dec]);
b= mi_uint4korr(b_ptr);
b_sec_part= (ulong)read_bigendian(b_ptr+4, sec_part_bytes[dec]);
return ((uint32) a < (uint32) b) ? -1 : ((uint32) a > (uint32) b) ? 1 :
a_sec_part < b_sec_part ? -1 : a_sec_part > b_sec_part ? 1 : 0;
}
void Field_timestamp_hires::sort_string(uchar *to,uint length)
{
DBUG_ASSERT(length == Field_timestamp_hires::pack_length());
memcpy(to, ptr, length);
}
uint32 Field_timestamp_hires::pack_length() const
{
return 4 + sec_part_bytes[dec];
}
void Field_timestamp_hires::make_field(Send_field *field)
{
Field::make_field(field);
field->decimals= dec;
}
/*
Store string into a date/time field
RETURN
0 ok
1 Value was cut during conversion
2 value was out of range
3 Datetime value that was cut (warning level NOTE)
This is used by opt_range.cc:get_mm_leaf().
*/
int Field_temporal::store_TIME_with_warning(MYSQL_TIME *ltime,
const Lazy_string *str,
int was_cut, int have_smth_to_conv)
{
MYSQL_ERROR::enum_warning_level trunc_level= MYSQL_ERROR::WARN_LEVEL_WARN;
int ret= 2;
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
if (was_cut == 0 &&
have_smth_to_conv == 0 &&
temporal_type() != MYSQL_TIMESTAMP_TIME) // special case: zero date
was_cut= MYSQL_TIME_WARN_OUT_OF_RANGE;
else
if (!have_smth_to_conv)
{
bzero(ltime, sizeof(*ltime));
was_cut= MYSQL_TIME_WARN_TRUNCATED;
ret= 1;
}
else if (!(was_cut & MYSQL_TIME_WARN_TRUNCATED) &&
temporal_type() == MYSQL_TIMESTAMP_DATE &&
(ltime->hour || ltime->minute || ltime->second || ltime->second_part))
{
trunc_level= MYSQL_ERROR::WARN_LEVEL_NOTE;
was_cut|= MYSQL_TIME_WARN_TRUNCATED;
ret= 3;
}
else if (!(was_cut & MYSQL_TIME_WARN_TRUNCATED) &&
temporal_type() == MYSQL_TIMESTAMP_TIME &&
(ltime->year || ltime->month))
{
ltime->year= ltime->month= ltime->day= 0;
trunc_level= MYSQL_ERROR::WARN_LEVEL_NOTE;
was_cut|= MYSQL_TIME_WARN_TRUNCATED;
ret= 3;
}
/*
error code logic:
MYSQL_TIME_WARN_TRUNCATED means that the value was not a date/time at all.
it will be stored as zero date/time.
MYSQL_TIME_WARN_OUT_OF_RANGE means that the value was a date/time,
that is, it was parsed as such, but the value was invalid.
Also, MYSQL_TIME_WARN_TRUNCATED is used when storing a DATETIME in
a DATE field and non-zero time part is thrown away.
*/
if (was_cut & MYSQL_TIME_WARN_TRUNCATED)
set_datetime_warning(trunc_level, WARN_DATA_TRUNCATED,
str, temporal_type(), 1);
if (was_cut & MYSQL_TIME_WARN_OUT_OF_RANGE)
set_datetime_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE,
str, temporal_type(), 1);
store_TIME(ltime);
return was_cut ? ret : 0;
}
int Field_temporal::store(const char *from,uint len,CHARSET_INFO *cs)
{
MYSQL_TIME ltime;
int error;
enum enum_mysql_timestamp_type func_res;
THD *thd= table->in_use;
Lazy_string_str str(from, len);
func_res= str_to_datetime(from, len, <ime,
(TIME_FUZZY_DATE |
(thd->variables.sql_mode &
(MODE_NO_ZERO_IN_DATE | MODE_NO_ZERO_DATE |
MODE_INVALID_DATES))),
&error);
return store_TIME_with_warning(<ime, &str, error, func_res > MYSQL_TIMESTAMP_ERROR);
}
int Field_temporal::store(double nr)
{
int error= 0;
MYSQL_TIME ltime;
THD *thd= table->in_use;
Lazy_string_double str(nr);
longlong tmp= double_to_datetime(nr, <ime,
(TIME_FUZZY_DATE |
(thd->variables.sql_mode &
(MODE_NO_ZERO_IN_DATE |
MODE_NO_ZERO_DATE |
MODE_INVALID_DATES))), &error);
return store_TIME_with_warning(<ime, &str, error, tmp != -1);
}
int Field_temporal::store(longlong nr, bool unsigned_val)
{
int error;
MYSQL_TIME ltime;
longlong tmp;
THD *thd= table->in_use;
Lazy_string_num str(nr);
tmp= number_to_datetime(nr, 0, <ime, (TIME_FUZZY_DATE |
(thd->variables.sql_mode &
(MODE_NO_ZERO_IN_DATE |
MODE_NO_ZERO_DATE |
MODE_INVALID_DATES))), &error);
return store_TIME_with_warning(<ime, &str, error, tmp != -1);
}
int Field_temporal::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
int error = 0, have_smth_to_conv= 1;
MYSQL_TIME l_time= *ltime;
Lazy_string_time str(ltime);
/*
We don't perform range checking here since values stored in TIME
structure always fit into DATETIME range.
*/
have_smth_to_conv= !check_date(&l_time, pack_time(&l_time) != 0,
(TIME_FUZZY_DATE |
(current_thd->variables.sql_mode &
(MODE_NO_ZERO_IN_DATE | MODE_NO_ZERO_DATE |
MODE_INVALID_DATES))), &error);
return store_TIME_with_warning(&l_time, &str, error, have_smth_to_conv);
}
my_decimal *Field_temporal::val_decimal(my_decimal *d)
{
MYSQL_TIME ltime;
if (get_date(<ime, TIME_FUZZY_DATE))
{
bzero(<ime, sizeof(ltime));
ltime.time_type= mysql_type_to_time_type(type());
}
longlong intg= TIME_to_ulonglong(<ime);
return seconds2my_decimal(ltime.neg, intg, ltime.second_part, d);
}
/****************************************************************************
** time type
** In string context: HH:MM:SS
** In number context: HHMMSS
** Stored as a 3 byte unsigned int
****************************************************************************/
void Field_time::store_TIME(MYSQL_TIME *ltime)
{
long tmp= (ltime->day*24L+ltime->hour)*10000L +
(ltime->minute*100+ltime->second);
if (ltime->neg)
tmp= -tmp;
int3store(ptr,tmp);
}
int Field_time::store(const char *from,uint len,CHARSET_INFO *cs)
{
MYSQL_TIME ltime;
Lazy_string_str str(from, len);
int was_cut;
int have_smth_to_conv=
str_to_time(from, len, <ime,
table->in_use->variables.sql_mode &
(MODE_NO_ZERO_DATE | MODE_NO_ZERO_IN_DATE |
MODE_INVALID_DATES),
&was_cut) > MYSQL_TIMESTAMP_ERROR;
return store_TIME_with_warning(<ime, &str, was_cut, have_smth_to_conv);
}
int Field_time::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
MYSQL_TIME l_time= *ltime;
Lazy_string_time str(ltime);
int was_cut= 0;
int have_smth_to_conv= !check_time_range(&l_time, decimals(), &was_cut);
return store_TIME_with_warning(&l_time, &str, was_cut, have_smth_to_conv);
}
int Field_time::store(double nr)
{
MYSQL_TIME ltime;
Lazy_string_double str(nr);
int was_cut;
bool neg= nr < 0;
if (neg)
nr= -nr;
int have_smth_to_conv= !number_to_time(neg, (longlong)nr,
(ulong)((nr - floor(nr)) * TIME_SECOND_PART_FACTOR),
<ime, &was_cut);
return store_TIME_with_warning(<ime, &str, was_cut, have_smth_to_conv);
}
int Field_time::store(longlong nr, bool unsigned_val)
{
MYSQL_TIME ltime;
Lazy_string_num str(nr);
int was_cut;
int have_smth_to_conv= !number_to_time(nr < 0, nr < 0 ? -nr : nr,
0, <ime, &was_cut);
return store_TIME_with_warning(<ime, &str, was_cut, have_smth_to_conv);
}
double Field_time::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
uint32 j= (uint32) uint3korr(ptr);
return (double) j;
}
longlong Field_time::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return (longlong) sint3korr(ptr);
}
/**
@note
This function is multi-byte safe as the result string is always of type
my_charset_bin
*/
String *Field_time::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
MYSQL_TIME ltime;
long tmp=(long) sint3korr(ptr);
ltime.neg= 0;
if (tmp < 0)
{
tmp= -tmp;
ltime.neg= 1;
}
ltime.year= ltime.month= 0;
ltime.day= (uint) 0;
ltime.hour= (uint) (tmp/10000);
ltime.minute= (uint) (tmp/100 % 100);
ltime.second= (uint) (tmp % 100);
ltime.second_part= 0;
val_buffer->alloc(MAX_DATE_STRING_REP_LENGTH);
uint length= (uint) my_time_to_str(<ime,
const_cast<char*>(val_buffer->ptr()), 0);
val_buffer->length(length);
val_buffer->set_charset(&my_charset_bin);
return val_buffer;
}
/**
@note
Normally we would not consider 'time' as a valid date, but we allow
get_date() here to be able to do things like
DATE_FORMAT(time, "%l.%i %p")
*/
bool Field_time::get_date(MYSQL_TIME *ltime, uint fuzzydate)
{
THD *thd= table->in_use;
if (!(fuzzydate & (TIME_FUZZY_DATE|TIME_TIME_ONLY)))
{
push_warning_printf(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_WARN_DATA_OUT_OF_RANGE,
ER(ER_WARN_DATA_OUT_OF_RANGE), field_name,
thd->row_count);
return 1;
}
long tmp=(long) sint3korr(ptr);
ltime->neg=0;
if (tmp < 0)
{
ltime->neg= 1;
tmp=-tmp;
}
ltime->year= ltime->month= ltime->day= 0;
ltime->hour= (int) (tmp/10000);
tmp-=ltime->hour*10000;
ltime->minute= (int) tmp/100;
ltime->second= (int) tmp % 100;
ltime->second_part=0;
ltime->time_type= MYSQL_TIMESTAMP_TIME;
return 0;
}
bool Field_time::send_binary(Protocol *protocol)
{
MYSQL_TIME ltime;
Field_time::get_date(<ime, TIME_TIME_ONLY);
return protocol->store_time(<ime, 0);
}
int Field_time::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
int32 a,b;
a=(int32) sint3korr(a_ptr);
b=(int32) sint3korr(b_ptr);
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_time::sort_string(uchar *to,uint length __attribute__((unused)))
{
to[0] = (uchar) (ptr[2] ^ 128);
to[1] = ptr[1];
to[2] = ptr[0];
}
void Field_time::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("time"));
}
int Field_time_hires::reset()
{
store_bigendian(zero_point, ptr, Field_time_hires::pack_length());
return 0;
}
void Field_time_hires::store_TIME(MYSQL_TIME *ltime)
{
ulonglong packed= sec_part_shift(pack_time(ltime), dec) + zero_point;
store_bigendian(packed, ptr, Field_time_hires::pack_length());
}
int Field_time_hires::store_decimal(const my_decimal *d)
{
ulonglong nr;
ulong sec_part;
Lazy_string_decimal str(d);
MYSQL_TIME ltime;
int was_cut;
bool neg= my_decimal2seconds(d, &nr, &sec_part);
int have_smth_to_conv= !number_to_time(neg, nr, sec_part, <ime, &was_cut);
return store_TIME_with_warning(<ime, &str, was_cut, have_smth_to_conv);
}
uint32 Field_time_hires::pack_length() const
{
return time_hires_bytes[dec];
}
longlong Field_time_hires::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
MYSQL_TIME ltime;
Field_time_hires::get_date(<ime, TIME_TIME_ONLY);
longlong val= TIME_to_ulonglong_time(<ime);
return ltime.neg ? -val : val;
}
double Field_time_hires::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
MYSQL_TIME ltime;
Field_time_hires::get_date(<ime, TIME_TIME_ONLY);
return TIME_to_double(<ime);
}
String *Field_time_hires::val_str(String *str,
String *unused __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
MYSQL_TIME ltime;
Field_time_hires::get_date(<ime, TIME_TIME_ONLY);
str->alloc(field_length+1);
str->length(my_time_to_str(<ime, (char*) str->ptr(), dec));
str->set_charset(&my_charset_bin);
return str;
}
bool Field_time_hires::get_date(MYSQL_TIME *ltime, uint fuzzydate)
{
uint32 len= pack_length();
longlong packed= read_bigendian(ptr, len);
packed= sec_part_unshift(packed - zero_point, dec);
unpack_time(packed, ltime);
/*
unpack_time() returns MYSQL_TIMESTAMP_DATETIME.
To get MYSQL_TIMESTAMP_TIME we few adjustments
*/
ltime->time_type= MYSQL_TIMESTAMP_TIME;
ltime->hour+= (ltime->month*32+ltime->day)*24;
ltime->month= ltime->day= 0;
return fuzzydate & (TIME_FUZZY_DATE | TIME_TIME_ONLY) ? 0 : 1;
}
bool Field_time_hires::send_binary(Protocol *protocol)
{
MYSQL_TIME ltime;
Field_time_hires::get_date(<ime, TIME_TIME_ONLY);
return protocol->store_time(<ime, dec);
}
int Field_time_hires::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
ulonglong a=read_bigendian(a_ptr, Field_time_hires::pack_length());
ulonglong b=read_bigendian(b_ptr, Field_time_hires::pack_length());
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_time_hires::sort_string(uchar *to,uint length __attribute__((unused)))
{
DBUG_ASSERT(length == Field_time_hires::pack_length());
memcpy(to, ptr, length);
to[0]^= 128;
}
void Field_time_hires::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs, (char*) res.ptr(), res.alloced_length(),
"time(%u)", dec));
}
void Field_time_hires::make_field(Send_field *field)
{
Field::make_field(field);
field->decimals= dec;
}
/****************************************************************************
** year type
** Save in a byte the year 0, 1901->2155
** Can handle 2 byte or 4 byte years!
****************************************************************************/
int Field_year::store(const char *from, uint len,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
char *end;
int error;
longlong nr= cs->cset->strntoull10rnd(cs, from, len, 0, &end, &error);
if (nr < 0 || (nr >= 100 && nr <= 1900) || nr > 2155 ||
error == MY_ERRNO_ERANGE)
{
*ptr=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
if (table->in_use->count_cuted_fields &&
(error= check_int(cs, from, len, end, error)))
{
if (error == 1) /* empty or incorrect string */
{
*ptr= 0;
return 1;
}
error= 1;
}
if (nr != 0 || len != 4)
{
if (nr < YY_PART_YEAR)
nr+=100; // 2000 - 2069
else if (nr > 1900)
nr-= 1900;
}
*ptr= (char) (uchar) nr;
return error;
}
int Field_year::store(double nr)
{
if (nr < 0.0 || nr > 2155.0)
{
(void) Field_year::store((longlong) -1, FALSE);
return 1;
}
return Field_year::store((longlong) nr, FALSE);
}
int Field_year::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
if (nr < 0 || (nr >= 100 && nr <= 1900) || nr > 2155)
{
*ptr= 0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
if (nr != 0 || field_length != 4) // 0000 -> 0; 00 -> 2000
{
if (nr < YY_PART_YEAR)
nr+=100; // 2000 - 2069
else if (nr > 1900)
nr-= 1900;
}
*ptr= (char) (uchar) nr;
return 0;
}
int Field_year::store_time_dec(MYSQL_TIME *ltime, uint dec)
{
Lazy_string_time str(ltime);
if (Field_year::store(ltime->year, 0))
return 1;
set_datetime_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED,
&str, ltime->time_type, 1);
return 0;
}
bool Field_year::send_binary(Protocol *protocol)
{
ASSERT_COLUMN_MARKED_FOR_READ;
ulonglong tmp= Field_year::val_int();
return protocol->store_short(tmp);
}
double Field_year::val_real(void)
{
return (double) Field_year::val_int();
}
longlong Field_year::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
DBUG_ASSERT(field_length == 2 || field_length == 4);
int tmp= (int) ptr[0];
if (field_length != 4)
tmp%=100; // Return last 2 char
else if (tmp)
tmp+=1900;
return (longlong) tmp;
}
String *Field_year::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
DBUG_ASSERT(field_length < 5);
val_buffer->alloc(5);
val_buffer->length(field_length);
char *to=(char*) val_buffer->ptr();
sprintf(to,field_length == 2 ? "%02d" : "%04d",(int) Field_year::val_int());
return val_buffer;
}
bool Field_year::get_date(MYSQL_TIME *ltime,uint fuzzydate)
{
int tmp= (int) ptr[0];
if (tmp || field_length != 4)
tmp+= 1900;
return int_to_datetime_with_warn(tmp * 10000, ltime, fuzzydate, field_name);
}
void Field_year::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs,(char*)res.ptr(),res.alloced_length(),
"year(%d)",(int) field_length));
}
/****************************************************************************
** date type
** In string context: YYYY-MM-DD
** In number context: YYYYMMDD
** Stored as a 4 byte unsigned int
****************************************************************************/
void Field_date::store_TIME(MYSQL_TIME *ltime)
{
uint tmp= ltime->year*10000L + ltime->month*100+ltime->day;
int4store(ptr,tmp);
}
bool Field_date::send_binary(Protocol *protocol)
{
longlong tmp= Field_date::val_int();
MYSQL_TIME tm;
tm.year= (uint32) tmp/10000L % 10000;
tm.month= (uint32) tmp/100 % 100;
tm.day= (uint32) tmp % 100;
return protocol->store_date(&tm);
}
double Field_date::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int32 j;
j=sint4korr(ptr);
return (double) (uint32) j;
}
longlong Field_date::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int32 j;
j=sint4korr(ptr);
return (longlong) (uint32) j;
}
String *Field_date::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
MYSQL_TIME ltime;
int32 tmp;
tmp=sint4korr(ptr);
ltime.neg= 0;
ltime.year= (int) ((uint32) tmp/10000L % 10000);
ltime.month= (int) ((uint32) tmp/100 % 100);
ltime.day= (int) ((uint32) tmp % 100);
val_buffer->alloc(MAX_DATE_STRING_REP_LENGTH);
uint length= (uint) my_date_to_str(<ime,
const_cast<char*>(val_buffer->ptr()));
val_buffer->length(length);
val_buffer->set_charset(&my_charset_bin);
return val_buffer;
}
int Field_date::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
int32 a,b;
a=sint4korr(a_ptr);
b=sint4korr(b_ptr);
return ((uint32) a < (uint32) b) ? -1 : ((uint32) a > (uint32) b) ? 1 : 0;
}
void Field_date::sort_string(uchar *to,uint length __attribute__((unused)))
{
to[0] = ptr[3];
to[1] = ptr[2];
to[2] = ptr[1];
to[3] = ptr[0];
}
void Field_date::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("date"));
}
/****************************************************************************
** The new date type
** This is identical to the old date type, but stored on 3 bytes instead of 4
** In number context: YYYYMMDD
****************************************************************************/
void Field_newdate::store_TIME(MYSQL_TIME *ltime)
{
uint tmp= ltime->year*16*32 + ltime->month*32+ltime->day;
int3store(ptr,tmp);
}
bool Field_newdate::send_binary(Protocol *protocol)
{
MYSQL_TIME tm;
Field_newdate::get_date(&tm,0);
return protocol->store_date(&tm);
}
double Field_newdate::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return (double) Field_newdate::val_int();
}
longlong Field_newdate::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
ulong j= uint3korr(ptr);
j= (j % 32L)+(j / 32L % 16L)*100L + (j/(16L*32L))*10000L;
return (longlong) j;
}
String *Field_newdate::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
val_buffer->alloc(field_length);
val_buffer->length(field_length);
uint32 tmp=(uint32) uint3korr(ptr);
int part;
char *pos=(char*) val_buffer->ptr()+10;
/* Open coded to get more speed */
*pos--=0; // End NULL
part=(int) (tmp & 31);
*pos--= (char) ('0'+part%10);
*pos--= (char) ('0'+part/10);
*pos--= '-';
part=(int) (tmp >> 5 & 15);
*pos--= (char) ('0'+part%10);
*pos--= (char) ('0'+part/10);
*pos--= '-';
part=(int) (tmp >> 9);
*pos--= (char) ('0'+part%10); part/=10;
*pos--= (char) ('0'+part%10); part/=10;
*pos--= (char) ('0'+part%10); part/=10;
*pos= (char) ('0'+part);
return val_buffer;
}
bool Field_newdate::get_date(MYSQL_TIME *ltime,uint fuzzydate)
{
uint32 tmp=(uint32) uint3korr(ptr);
ltime->day= tmp & 31;
ltime->month= (tmp >> 5) & 15;
ltime->year= (tmp >> 9);
ltime->time_type= MYSQL_TIMESTAMP_DATE;
ltime->hour= ltime->minute= ltime->second= ltime->second_part= ltime->neg= 0;
if (!tmp)
return fuzzydate & TIME_NO_ZERO_DATE;
if (!ltime->month || !ltime->day)
return !(fuzzydate & TIME_FUZZY_DATE);
return 0;
}
int Field_newdate::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
uint32 a,b;
a=(uint32) uint3korr(a_ptr);
b=(uint32) uint3korr(b_ptr);
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_newdate::sort_string(uchar *to,uint length __attribute__((unused)))
{
to[0] = ptr[2];
to[1] = ptr[1];
to[2] = ptr[0];
}
void Field_newdate::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("date"));
}
/****************************************************************************
** datetime type
** In string context: YYYY-MM-DD HH:MM:DD
** In number context: YYYYMMDDHHMMDD
** Stored as a 8 byte unsigned int. Should sometimes be change to a 6 byte int.
****************************************************************************/
void Field_datetime::store_TIME(MYSQL_TIME *ltime)
{
ulonglong tmp= TIME_to_ulonglong_datetime(ltime);
int8store(ptr,tmp);
}
bool Field_datetime::send_binary(Protocol *protocol)
{
MYSQL_TIME tm;
Field_datetime::get_date(&tm, TIME_FUZZY_DATE);
return protocol->store(&tm, 0);
}
double Field_datetime::val_real(void)
{
return (double) Field_datetime::val_int();
}
longlong Field_datetime::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
longlong j;
j=sint8korr(ptr);
return j;
}
String *Field_datetime::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
val_buffer->alloc(field_length);
val_buffer->length(field_length);
ASSERT_COLUMN_MARKED_FOR_READ;
ulonglong tmp;
long part1,part2;
char *pos;
int part3;
tmp= Field_datetime::val_int();
/*
Avoid problem with slow longlong arithmetic and sprintf
*/
part1=(long) (tmp/LL(1000000));
part2=(long) (tmp - (ulonglong) part1*LL(1000000));
pos=(char*) val_buffer->ptr() + MAX_DATETIME_WIDTH;
*pos--=0;
*pos--= (char) ('0'+(char) (part2%10)); part2/=10;
*pos--= (char) ('0'+(char) (part2%10)); part3= (int) (part2 / 10);
*pos--= ':';
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos--= ':';
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos--= (char) ('0'+(char) part3);
*pos--= ' ';
*pos--= (char) ('0'+(char) (part1%10)); part1/=10;
*pos--= (char) ('0'+(char) (part1%10)); part1/=10;
*pos--= '-';
*pos--= (char) ('0'+(char) (part1%10)); part1/=10;
*pos--= (char) ('0'+(char) (part1%10)); part3= (int) (part1/10);
*pos--= '-';
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos--= (char) ('0'+(char) (part3%10)); part3/=10;
*pos=(char) ('0'+(char) part3);
return val_buffer;
}
bool Field_datetime::get_date(MYSQL_TIME *ltime, uint fuzzydate)
{
longlong tmp=Field_datetime::val_int();
uint32 part1,part2;
part1=(uint32) (tmp/LL(1000000));
part2=(uint32) (tmp - (ulonglong) part1*LL(1000000));
ltime->time_type= MYSQL_TIMESTAMP_DATETIME;
ltime->neg= 0;
ltime->second_part= 0;
ltime->second= (int) (part2%100);
ltime->minute= (int) (part2/100%100);
ltime->hour= (int) (part2/10000);
ltime->day= (int) (part1%100);
ltime->month= (int) (part1/100%100);
ltime->year= (int) (part1/10000);
if (!tmp)
return (fuzzydate & TIME_NO_ZERO_DATE) != 0;
if (!ltime->month || !ltime->day)
return !(fuzzydate & TIME_FUZZY_DATE);
return 0;
}
int Field_datetime::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
longlong a,b;
a=sint8korr(a_ptr);
b=sint8korr(b_ptr);
return ((ulonglong) a < (ulonglong) b) ? -1 :
((ulonglong) a > (ulonglong) b) ? 1 : 0;
}
void Field_datetime::sort_string(uchar *to,uint length __attribute__((unused)))
{
to[0] = ptr[7];
to[1] = ptr[6];
to[2] = ptr[5];
to[3] = ptr[4];
to[4] = ptr[3];
to[5] = ptr[2];
to[6] = ptr[1];
to[7] = ptr[0];
}
void Field_datetime::sql_type(String &res) const
{
res.set_ascii(STRING_WITH_LEN("datetime"));
}
void Field_datetime_hires::store_TIME(MYSQL_TIME *ltime)
{
ulonglong packed= sec_part_shift(pack_time(ltime), dec);
store_bigendian(packed, ptr, pack_length());
}
int Field_datetime_hires::store_decimal(const my_decimal *d)
{
ulonglong nr;
ulong sec_part;
int error;
MYSQL_TIME ltime;
longlong tmp;
THD *thd= table->in_use;
Lazy_string_decimal str(d);
if (my_decimal2seconds(d, &nr, &sec_part))
{
tmp= -1;
error= 2;
}
else
tmp= number_to_datetime(nr, sec_part, <ime, (TIME_FUZZY_DATE |
(thd->variables.sql_mode &
(MODE_NO_ZERO_IN_DATE |
MODE_NO_ZERO_DATE |
MODE_INVALID_DATES))), &error);
return store_TIME_with_warning(<ime, &str, error, tmp != -1);
}
bool Field_datetime_hires::send_binary(Protocol *protocol)
{
MYSQL_TIME ltime;
Field_datetime_hires::get_date(<ime, TIME_FUZZY_DATE);
return protocol->store(<ime, dec);
}
double Field_datetime_hires::val_real(void)
{
MYSQL_TIME ltime;
Field_datetime_hires::get_date(<ime, TIME_FUZZY_DATE);
return TIME_to_double(<ime);
}
longlong Field_datetime_hires::val_int(void)
{
MYSQL_TIME ltime;
Field_datetime_hires::get_date(<ime, TIME_FUZZY_DATE);
return TIME_to_ulonglong_datetime(<ime);
}
String *Field_datetime_hires::val_str(String *str,
String *unused __attribute__((unused)))
{
MYSQL_TIME ltime;
Field_datetime_hires::get_date(<ime, TIME_FUZZY_DATE);
str->alloc(field_length+1);
str->length(field_length);
my_datetime_to_str(<ime, (char*) str->ptr(), dec);
str->set_charset(&my_charset_bin);
return str;
}
bool Field_datetime_hires::get_date(MYSQL_TIME *ltime, uint fuzzydate)
{
ulonglong packed= read_bigendian(ptr, pack_length());
unpack_time(sec_part_unshift(packed, dec), ltime);
if (!packed)
return fuzzydate & TIME_NO_ZERO_DATE;
if (!ltime->month || !ltime->day)
return !(fuzzydate & TIME_FUZZY_DATE);
return 0;
}
uint32 Field_datetime_hires::pack_length() const
{
return datetime_hires_bytes[dec];
}
int Field_datetime_hires::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
ulonglong a=read_bigendian(a_ptr, pack_length());
ulonglong b=read_bigendian(b_ptr, pack_length());
return a < b ? -1 : a > b ? 1 : 0;
}
void Field_datetime_hires::sort_string(uchar *to,
uint length __attribute__((unused)))
{
DBUG_ASSERT(length == pack_length());
memcpy(to, ptr, length);
}
void Field_datetime_hires::sql_type(String &res) const
{
CHARSET_INFO *cs=res.charset();
res.length(cs->cset->snprintf(cs, (char*) res.ptr(), res.alloced_length(),
"datetime(%u)", dec));
}
void Field_datetime_hires::make_field(Send_field *field)
{
Field::make_field(field);
field->decimals= dec;
}
/****************************************************************************
** string type
** A string may be varchar or binary
****************************************************************************/
/*
Report "not well formed" or "cannot convert" error
after storing a character string info a field.
SYNOPSIS
check_string_copy_error()
field - Field
well_formed_error_pos - where not well formed data was first met
cannot_convert_error_pos - where a not-convertable character was first met
end - end of the string
cs - character set of the string
NOTES
As of version 5.0 both cases return the same error:
"Invalid string value: 'xxx' for column 't' at row 1"
Future versions will possibly introduce a new error message:
"Cannot convert character string: 'xxx' for column 't' at row 1"
RETURN
FALSE - If errors didn't happen
TRUE - If an error happened
*/
static bool
check_string_copy_error(Field_str *field,
const char *well_formed_error_pos,
const char *cannot_convert_error_pos,
const char *end,
CHARSET_INFO *cs)
{
const char *pos;
char tmp[32];
if (!(pos= well_formed_error_pos) &&
!(pos= cannot_convert_error_pos))
return FALSE;
convert_to_printable(tmp, sizeof(tmp), pos, (end - pos), cs, 6);
push_warning_printf(field->table->in_use,
field->table->in_use->abort_on_warning ?
MYSQL_ERROR::WARN_LEVEL_ERROR :
MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE_FOR_FIELD,
ER(ER_TRUNCATED_WRONG_VALUE_FOR_FIELD),
"string", tmp, field->field_name,
(ulong) field->table->in_use->row_count);
return TRUE;
}
/*
Check if we lost any important data and send a truncation error/warning
SYNOPSIS
Field_longstr::report_if_important_data()
pstr - Truncated rest of string
end - End of truncated string
count_spaces - Treat traling spaces as important data
RETURN VALUES
0 - None was truncated (or we don't count cut fields)
2 - Some bytes was truncated
NOTE
Check if we lost any important data (anything in a binary string,
or any non-space in others). If only trailing spaces was lost,
send a truncation note, otherwise send a truncation error.
Silently ignore traling spaces if the count_space parameter is FALSE.
*/
int
Field_longstr::report_if_important_data(const char *pstr, const char *end,
bool count_spaces)
{
if ((pstr < end) && table->in_use->count_cuted_fields)
{
if (test_if_important_data(field_charset, pstr, end))
{
if (table->in_use->abort_on_warning)
set_warning(MYSQL_ERROR::WARN_LEVEL_ERROR, ER_DATA_TOO_LONG, 1);
else
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
return 2;
}
else if (count_spaces)
{ /* If we lost only spaces then produce a NOTE, not a WARNING */
set_warning(MYSQL_ERROR::WARN_LEVEL_NOTE, WARN_DATA_TRUNCATED, 1);
return 2;
}
}
return 0;
}
/* Copy a string and fill with space */
int Field_string::store(const char *from,uint length,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
uint copy_length;
const char *well_formed_error_pos;
const char *cannot_convert_error_pos;
const char *from_end_pos;
/* See the comment for Field_long::store(long long) */
DBUG_ASSERT(table->in_use == current_thd);
copy_length= well_formed_copy_nchars(field_charset,
(char*) ptr, field_length,
cs, from, length,
field_length / field_charset->mbmaxlen,
&well_formed_error_pos,
&cannot_convert_error_pos,
&from_end_pos);
/* Append spaces if the string was shorter than the field. */
if (copy_length < field_length)
field_charset->cset->fill(field_charset,(char*) ptr+copy_length,
field_length-copy_length,
field_charset->pad_char);
if (check_string_copy_error(this, well_formed_error_pos,
cannot_convert_error_pos, from + length, cs))
return 2;
return report_if_important_data(from_end_pos, from + length, FALSE);
}
/**
Store double value in Field_string or Field_varstring.
Pretty prints double number into field_length characters buffer.
@param nr number
*/
int Field_str::store(double nr)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
char buff[DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE];
uint length;
uint local_char_length= field_length / charset()->mbmaxlen;
double anr= fabs(nr);
bool fractional= (anr != floor(anr));
int neg= (nr < 0.0) ? 1 : 0;
uint max_length;
int exp;
uint digits;
uint i;
/* Calculate the exponent from the 'e'-format conversion */
if (anr < 1.0 && anr > 0)
{
for (exp= 0; anr < 1e-100; exp-= 100, anr*= 1e100)
;
for (; anr < 1e-10; exp-= 10, anr*= 1e10)
;
for (i= 1; anr < 1 / log_10[i]; exp--, i++)
;
exp--;
}
else
{
for (exp= 0; anr > 1e100; exp+= 100, anr/= 1e100)
;
for (; anr > 1e10; exp+= 10, anr/= 1e10)
;
for (i= 1; anr > log_10[i]; exp++, i++)
;
}
max_length= local_char_length - neg;
/*
Since in sprintf("%g") precision means the number of significant digits,
calculate the maximum number of significant digits if the 'f'-format
would be used (+1 for decimal point if the number has a fractional part).
*/
digits= max(1, (int) max_length - fractional);
/*
If the exponent is negative, decrease digits by the number of leading zeros
after the decimal point that do not count as significant digits.
*/
if (exp < 0)
digits= max(1, (int) digits + exp);
/*
'e'-format is used only if the exponent is less than -4 or greater than or
equal to the precision. In this case we need to adjust the number of
significant digits to take "e+NN" + decimal point into account (hence -5).
We also have to reserve one additional character if abs(exp) >= 100.
*/
if (exp >= (int) digits || exp < -4)
digits= max(1, (int) (max_length - 5 - (exp >= 100 || exp <= -100)));
/* Limit precision to DBL_DIG to avoid garbage past significant digits */
set_if_smaller(digits, DBL_DIG);
length= (uint) my_sprintf(buff, (buff, "%-.*g", digits, nr));
#ifdef __WIN__
/*
Windows always zero-pads the exponent to 3 digits, we want to remove the
leading 0 to match the sprintf() output on other platforms.
*/
if ((exp >= (int) digits || exp < -4) && exp > -100 && exp < 100)
{
DBUG_ASSERT(length >= 6); /* 1e+NNN */
uint tmp= length - 3;
buff[tmp]= buff[tmp + 1];
tmp++;
buff[tmp]= buff[tmp + 1];
length--;
}
#endif
/*
+1 below is because "precision" in %g above means the
max. number of significant digits, not the output width.
Thus the width can be larger than number of significant digits by 1
(for decimal point)
the test for local_char_length < 5 is for extreme cases,
like inserting 500.0 in char(1)
*/
DBUG_ASSERT(local_char_length < 5 || length <= local_char_length+1);
return store(buff, length, charset());
}
uint Field::is_equal(Create_field *new_field)
{
return (new_field->sql_type == real_type());
}
uint Field_str::is_equal(Create_field *new_field)
{
if (field_flags_are_binary() != new_field->field_flags_are_binary())
return 0;
return ((new_field->sql_type == real_type()) &&
new_field->charset == field_charset &&
new_field->length == max_display_length());
}
int Field_string::store(longlong nr, bool unsigned_val)
{
char buff[64];
int l;
CHARSET_INFO *cs=charset();
l= (cs->cset->longlong10_to_str)(cs,buff,sizeof(buff),
unsigned_val ? 10 : -10, nr);
return Field_string::store(buff,(uint)l,cs);
}
int Field_longstr::store_decimal(const my_decimal *d)
{
char buff[DECIMAL_MAX_STR_LENGTH+1];
String str(buff, sizeof(buff), &my_charset_bin);
my_decimal2string(E_DEC_FATAL_ERROR, d, 0, 0, 0, &str);
return store(str.ptr(), str.length(), str.charset());
}
uint32 Field_longstr::max_data_length() const
{
return field_length + (field_length > 255 ? 2 : 1);
}
double Field_string::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int error;
char *end;
CHARSET_INFO *cs= charset();
double result;
result= my_strntod(cs,(char*) ptr,field_length,&end,&error);
if (!table->in_use->no_errors &&
(error || (field_length != (uint32)(end - (char*) ptr) &&
!check_if_only_end_space(cs, end,
(char*) ptr + field_length))))
{
char buf[DOUBLE_TO_STRING_CONVERSION_BUFFER_SIZE];
String tmp(buf, sizeof(buf), cs);
tmp.copy((char*) ptr, field_length, cs);
push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE,
ER(ER_TRUNCATED_WRONG_VALUE),
"DOUBLE", tmp.c_ptr());
}
return result;
}
longlong Field_string::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int error;
char *end;
CHARSET_INFO *cs= charset();
longlong result;
result= my_strntoll(cs, (char*) ptr,field_length,10,&end,&error);
if (!table->in_use->no_errors &&
(error || (field_length != (uint32)(end - (char*) ptr) &&
!check_if_only_end_space(cs, end,
(char*) ptr + field_length))))
{
char buf[LONGLONG_TO_STRING_CONVERSION_BUFFER_SIZE];
String tmp(buf, sizeof(buf), cs);
tmp.copy((char*) ptr, field_length, cs);
push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE,
ER(ER_TRUNCATED_WRONG_VALUE),
"INTEGER", tmp.c_ptr());
}
return result;
}
String *Field_string::val_str(String *val_buffer __attribute__((unused)),
String *val_ptr)
{
ASSERT_COLUMN_MARKED_FOR_READ;
/* See the comment for Field_long::store(long long) */
DBUG_ASSERT(table->in_use == current_thd);
uint length;
if (table->in_use->variables.sql_mode &
MODE_PAD_CHAR_TO_FULL_LENGTH)
length= my_charpos(field_charset, ptr, ptr + field_length,
field_length / field_charset->mbmaxlen);
else
length= field_charset->cset->lengthsp(field_charset, (const char*) ptr,
field_length);
val_ptr->set((const char*) ptr, length, field_charset);
return val_ptr;
}
my_decimal *Field_string::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int err= str2my_decimal(E_DEC_FATAL_ERROR, (char*) ptr, field_length,
charset(), decimal_value);
if (!table->in_use->no_errors && err)
{
char buf[DECIMAL_TO_STRING_CONVERSION_BUFFER_SIZE];
CHARSET_INFO *cs= charset();
String tmp(buf, sizeof(buf), cs);
tmp.copy((char*) ptr, field_length, cs);
push_warning_printf(current_thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_TRUNCATED_WRONG_VALUE,
ER(ER_TRUNCATED_WRONG_VALUE),
"DECIMAL", tmp.c_ptr());
}
return decimal_value;
}
struct Check_field_param {
Field *field;
};
#ifdef HAVE_REPLICATION
static bool
check_field_for_37426(const void *param_arg)
{
Check_field_param *param= (Check_field_param*) param_arg;
DBUG_ASSERT(param->field->real_type() == MYSQL_TYPE_STRING);
DBUG_PRINT("debug", ("Field %s - type: %d, size: %d",
param->field->field_name,
param->field->real_type(),
param->field->row_pack_length()));
return param->field->row_pack_length() > 255;
}
#endif
int Field_string::compatible_field_size(uint field_metadata,
const Relay_log_info *rli_arg,
uint16 mflags __attribute__((unused)))
{
#ifdef HAVE_REPLICATION
const Check_field_param check_param = { this };
if (rpl_master_has_bug(rli_arg, 37426, TRUE,
check_field_for_37426, &check_param))
return FALSE; // Not compatible field sizes
#endif
return Field::compatible_field_size(field_metadata, rli_arg, mflags);
}
int Field_string::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
uint a_len, b_len;
if (field_charset->mbmaxlen != 1)
{
uint char_len= field_length/field_charset->mbmaxlen;
a_len= my_charpos(field_charset, a_ptr, a_ptr + field_length, char_len);
b_len= my_charpos(field_charset, b_ptr, b_ptr + field_length, char_len);
}
else
a_len= b_len= field_length;
/*
We have to remove end space to be able to compare multi-byte-characters
like in latin_de 'ae' and 0xe4
*/
return field_charset->coll->strnncollsp(field_charset,
a_ptr, a_len,
b_ptr, b_len,
0);
}
void Field_string::sort_string(uchar *to,uint length)
{
IF_DBUG(uint tmp=) my_strnxfrm(field_charset,
to, length,
ptr, field_length);
DBUG_ASSERT(tmp == length);
}
void Field_string::sql_type(String &res) const
{
THD *thd= table->in_use;
CHARSET_INFO *cs=res.charset();
ulong length;
length= cs->cset->snprintf(cs,(char*) res.ptr(),
res.alloced_length(), "%s(%d)",
(type() == MYSQL_TYPE_VAR_STRING ?
(has_charset() ? "varchar" : "varbinary") :
(has_charset() ? "char" : "binary")),
(int) field_length / charset()->mbmaxlen);
res.length(length);
if ((thd->variables.sql_mode & (MODE_MYSQL323 | MODE_MYSQL40)) &&
has_charset() && (charset()->state & MY_CS_BINSORT))
res.append(STRING_WITH_LEN(" binary"));
}
uchar *Field_string::pack(uchar *to, const uchar *from, uint max_length)
{
uint length= min(field_length,max_length);
uint local_char_length= max_length/field_charset->mbmaxlen;
if (length > local_char_length)
local_char_length= my_charpos(field_charset, from, from+length,
local_char_length);
set_if_smaller(length, local_char_length);
while (length && from[length-1] == field_charset->pad_char)
length--;
// Length always stored little-endian
*to++= (uchar) length;
if (field_length > 255)
*to++= (uchar) (length >> 8);
// Store the actual bytes of the string
memcpy(to, from, length);
return to+length;
}
/**
Unpack a string field from row data.
This method is used to unpack a string field from a master whose size
of the field is less than that of the slave. Note that there can be a
variety of field types represented with this class. Certain types like
ENUM or SET are processed differently. Hence, the upper byte of the
@c param_data argument contains the result of field->real_type() from
the master.
@note For information about how the length is packed, see @c
Field_string::do_save_field_metadata
@param to Destination of the data
@param from Source of the data
@param param_data Real type (upper) and length (lower) values
@return New pointer into memory based on from + length of the data
*/
const uchar *
Field_string::unpack(uchar *to, const uchar *from, const uchar *from_end,
uint param_data)
{
uint from_length, length;
/*
Compute the declared length of the field on the master. This is
used to decide if one or two bytes should be read as length.
*/
if (param_data)
from_length= (((param_data >> 4) & 0x300) ^ 0x300) + (param_data & 0x00ff);
else
from_length= field_length;
DBUG_PRINT("debug",
("param_data: 0x%x, field_length: %u, from_length: %u",
param_data, field_length, from_length));
/*
Compute the actual length of the data by reading one or two bits
(depending on the declared field length on the master).
*/
if (from_length > 255)
{
if (from + 2 > from_end)
return 0;
length= uint2korr(from);
from+= 2;
}
else
{
if (from + 1 > from_end)
return 0;
length= (uint) *from++;
}
if (from + length > from_end || length > field_length)
return 0;
memcpy(to, from, length);
// Pad the string with the pad character of the fields charset
bfill(to + length, field_length - length, field_charset->pad_char);
return from+length;
}
/**
Save the field metadata for string fields.
Saves the real type in the first byte and the field length in the
second byte of the field metadata array at index of *metadata_ptr and
*(metadata_ptr + 1).
@note In order to be able to handle lengths exceeding 255 and be
backwards-compatible with pre-5.1.26 servers, an extra two bits of
the length has been added to the metadata in such a way that if
they are set, a new unrecognized type is generated. This will
cause pre-5.1-26 servers to stop due to a field type mismatch,
while new servers will be able to extract the extra bits. If the
length is <256, there will be no difference and both a new and an
old server will be able to handle it.
@note The extra two bits are added to bits 13 and 14 of the
parameter data (with 1 being the least siginficant bit and 16 the
most significant bit of the word) by xoring the extra length bits
with the real type. Since all allowable types have 0xF as most
significant bits of the metadata word, lengths <256 will not affect
the real type at all, while all other values will result in a
non-existant type in the range 17-244.
@see Field_string::unpack
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_string::do_save_field_metadata(uchar *metadata_ptr)
{
DBUG_ASSERT(field_length < 1024);
DBUG_ASSERT((real_type() & 0xF0) == 0xF0);
DBUG_PRINT("debug", ("field_length: %u, real_type: %u",
field_length, real_type()));
*metadata_ptr= (real_type() ^ ((field_length & 0x300) >> 4));
*(metadata_ptr + 1)= field_length & 0xFF;
return 2;
}
/*
Compare two packed keys
SYNOPSIS
pack_cmp()
a New key
b Original key
length Key length
insert_or_update 1 if this is an insert or update
RETURN
< 0 a < b
0 a = b
> 0 a > b
*/
int Field_string::pack_cmp(const uchar *a, const uchar *b, uint length,
bool insert_or_update)
{
uint a_length, b_length;
if (length > 255)
{
a_length= uint2korr(a);
b_length= uint2korr(b);
a+= 2;
b+= 2;
}
else
{
a_length= (uint) *a++;
b_length= (uint) *b++;
}
return field_charset->coll->strnncollsp(field_charset,
a, a_length,
b, b_length,
insert_or_update);
}
/**
Compare a packed key against row.
@param key Original key
@param length Key length. (May be less than field length)
@param insert_or_update 1 if this is an insert or update
@return
< 0 row < key
@return
0 row = key
@return
> 0 row > key
*/
int Field_string::pack_cmp(const uchar *key, uint length,
bool insert_or_update)
{
uint row_length, local_key_length;
uchar *end;
if (length > 255)
{
local_key_length= uint2korr(key);
key+= 2;
}
else
local_key_length= (uint) *key++;
/* Only use 'length' of key, not field_length */
end= ptr + length;
while (end > ptr && end[-1] == ' ')
end--;
row_length= (uint) (end - ptr);
return field_charset->coll->strnncollsp(field_charset,
ptr, row_length,
key, local_key_length,
insert_or_update);
}
uint Field_string::packed_col_length(const uchar *data_ptr, uint length)
{
if (length > 255)
return uint2korr(data_ptr)+2;
return (uint) *data_ptr + 1;
}
uint Field_string::max_packed_col_length(uint max_length)
{
return (max_length > 255 ? 2 : 1)+max_length;
}
uint Field_string::get_key_image(uchar *buff, uint length, imagetype type_arg)
{
uint bytes = my_charpos(field_charset, (char*) ptr,
(char*) ptr + field_length,
length / field_charset->mbmaxlen);
memcpy(buff, ptr, bytes);
if (bytes < length)
field_charset->cset->fill(field_charset, (char*) buff + bytes,
length - bytes, field_charset->pad_char);
return bytes;
}
Field *Field_string::new_field(MEM_ROOT *root, struct st_table *new_table,
bool keep_type)
{
Field *field;
if (type() != MYSQL_TYPE_VAR_STRING || keep_type)
field= Field::new_field(root, new_table, keep_type);
else if ((field= new Field_varstring(field_length, maybe_null(), field_name,
new_table->s, charset())))
{
/*
Old VARCHAR field which should be modified to a VARCHAR on copy
This is done to ensure that ALTER TABLE will convert old VARCHAR fields
to now VARCHAR fields.
*/
field->init(new_table);
/*
Normally orig_table is different from table only if field was created
via ::new_field. Here we alter the type of field, so ::new_field is
not applicable. But we still need to preserve the original field
metadata for the client-server protocol.
*/
field->orig_table= orig_table;
}
return field;
}
/****************************************************************************
VARCHAR type
Data in field->ptr is stored as:
1 or 2 bytes length-prefix-header (from Field_varstring::length_bytes)
data
NOTE:
When VARCHAR is stored in a key (for handler::index_read() etc) it's always
stored with a 2 byte prefix. (Just like blob keys).
Normally length_bytes is calculated as (field_length < 256 : 1 ? 2)
The exception is if there is a prefix key field that is part of a long
VARCHAR, in which case field_length for this may be 1 but the length_bytes
is 2.
****************************************************************************/
const uint Field_varstring::MAX_SIZE= UINT_MAX16;
/**
Save the field metadata for varstring fields.
Saves the field length in the first byte. Note: may consume
2 bytes. Caller must ensure second byte is contiguous with
first byte (e.g. array index 0,1).
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_varstring::do_save_field_metadata(uchar *metadata_ptr)
{
DBUG_ASSERT(field_length <= 65535);
int2store((char*)metadata_ptr, field_length);
return 2;
}
int Field_varstring::store(const char *from,uint length,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
uint copy_length;
const char *well_formed_error_pos;
const char *cannot_convert_error_pos;
const char *from_end_pos;
copy_length= well_formed_copy_nchars(field_charset,
(char*) ptr + length_bytes,
field_length,
cs, from, length,
field_length / field_charset->mbmaxlen,
&well_formed_error_pos,
&cannot_convert_error_pos,
&from_end_pos);
if (length_bytes == 1)
*ptr= (uchar) copy_length;
else
int2store(ptr, copy_length);
if (check_string_copy_error(this, well_formed_error_pos,
cannot_convert_error_pos, from + length, cs))
return 2;
return report_if_important_data(from_end_pos, from + length, TRUE);
}
int Field_varstring::store(longlong nr, bool unsigned_val)
{
char buff[64];
uint length;
length= (uint) (field_charset->cset->longlong10_to_str)(field_charset,
buff,
sizeof(buff),
(unsigned_val ? 10:
-10),
nr);
return Field_varstring::store(buff, length, field_charset);
}
double Field_varstring::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
char *end_not_used;
uint length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
return my_strntod(field_charset, (char*) ptr+length_bytes, length,
&end_not_used, ¬_used);
}
longlong Field_varstring::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
char *end_not_used;
uint length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
return my_strntoll(field_charset, (char*) ptr+length_bytes, length, 10,
&end_not_used, ¬_used);
}
String *Field_varstring::val_str(String *val_buffer __attribute__((unused)),
String *val_ptr)
{
ASSERT_COLUMN_MARKED_FOR_READ;
uint length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
val_ptr->set((const char*) ptr+length_bytes, length, field_charset);
return val_ptr;
}
my_decimal *Field_varstring::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
uint length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
str2my_decimal(E_DEC_FATAL_ERROR, (char*) ptr+length_bytes, length,
charset(), decimal_value);
return decimal_value;
}
int Field_varstring::cmp_max(const uchar *a_ptr, const uchar *b_ptr,
uint max_len)
{
uint a_length, b_length;
int diff;
if (length_bytes == 1)
{
a_length= (uint) *a_ptr;
b_length= (uint) *b_ptr;
}
else
{
a_length= uint2korr(a_ptr);
b_length= uint2korr(b_ptr);
}
set_if_smaller(a_length, max_len);
set_if_smaller(b_length, max_len);
diff= field_charset->coll->strnncollsp(field_charset,
a_ptr+
length_bytes,
a_length,
b_ptr+
length_bytes,
b_length,0);
return diff;
}
/**
@note
varstring and blob keys are ALWAYS stored with a 2 byte length prefix
*/
int Field_varstring::key_cmp(const uchar *key_ptr, uint max_key_length)
{
uint length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
uint local_char_length= max_key_length / field_charset->mbmaxlen;
local_char_length= my_charpos(field_charset, ptr + length_bytes,
ptr + length_bytes + length, local_char_length);
set_if_smaller(length, local_char_length);
return field_charset->coll->strnncollsp(field_charset,
ptr + length_bytes,
length,
key_ptr+
HA_KEY_BLOB_LENGTH,
uint2korr(key_ptr), 0);
}
/**
Compare to key segments (always 2 byte length prefix).
@note
This is used only to compare key segments created for index_read().
(keys are created and compared in key.cc)
*/
int Field_varstring::key_cmp(const uchar *a,const uchar *b)
{
return field_charset->coll->strnncollsp(field_charset,
a + HA_KEY_BLOB_LENGTH,
uint2korr(a),
b + HA_KEY_BLOB_LENGTH,
uint2korr(b),
0);
}
void Field_varstring::sort_string(uchar *to,uint length)
{
uint tot_length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
if (field_charset == &my_charset_bin)
{
/* Store length last in high-byte order to sort longer strings first */
if (length_bytes == 1)
to[length-1]= tot_length;
else
mi_int2store(to+length-2, tot_length);
length-= length_bytes;
}
tot_length= my_strnxfrm(field_charset,
to, length, ptr + length_bytes,
tot_length);
DBUG_ASSERT(tot_length == length);
}
enum ha_base_keytype Field_varstring::key_type() const
{
enum ha_base_keytype res;
if (binary())
res= length_bytes == 1 ? HA_KEYTYPE_VARBINARY1 : HA_KEYTYPE_VARBINARY2;
else
res= length_bytes == 1 ? HA_KEYTYPE_VARTEXT1 : HA_KEYTYPE_VARTEXT2;
return res;
}
void Field_varstring::sql_type(String &res) const
{
THD *thd= table->in_use;
CHARSET_INFO *cs=res.charset();
ulong length;
length= cs->cset->snprintf(cs,(char*) res.ptr(),
res.alloced_length(), "%s(%d)",
(has_charset() ? "varchar" : "varbinary"),
(int) field_length / charset()->mbmaxlen);
res.length(length);
if ((thd->variables.sql_mode & (MODE_MYSQL323 | MODE_MYSQL40)) &&
has_charset() && (charset()->state & MY_CS_BINSORT))
res.append(STRING_WITH_LEN(" binary"));
}
uint32 Field_varstring::data_length()
{
return length_bytes == 1 ? (uint32) *ptr : uint2korr(ptr);
}
/*
Functions to create a packed row.
Here the number of length bytes are depending on the given max_length
*/
uchar *Field_varstring::pack(uchar *to, const uchar *from, uint max_length)
{
uint length= length_bytes == 1 ? (uint) *from : uint2korr(from);
set_if_smaller(max_length, field_length);
if (length > max_length)
length=max_length;
/* Length always stored little-endian */
*to++= length & 0xFF;
if (max_length > 255)
*to++= (length >> 8) & 0xFF;
/* Store bytes of string */
if (length > 0)
memcpy(to, from+length_bytes, length);
return to+length;
}
uchar *
Field_varstring::pack_key(uchar *to, const uchar *key, uint max_length)
{
uint length= length_bytes == 1 ? (uint) *key : uint2korr(key);
uint local_char_length= ((field_charset->mbmaxlen > 1) ?
max_length/field_charset->mbmaxlen : max_length);
key+= length_bytes;
if (length > local_char_length)
{
local_char_length= my_charpos(field_charset, key, key+length,
local_char_length);
set_if_smaller(length, local_char_length);
}
*to++= (char) (length & 255);
if (max_length > 255)
*to++= (char) (length >> 8);
if (length)
memcpy(to, key, length);
return to+length;
}
/**
Unpack a key into a record buffer.
A VARCHAR key has a maximum size of 64K-1.
In its packed form, the length field is one or two bytes long,
depending on 'max_length'.
@param to Pointer into the record buffer.
@param key Pointer to the packed key.
@param max_length Key length limit from key description.
@return
Pointer to end of 'key' (To the next key part if multi-segment key)
*/
#ifdef NOT_USED
const uchar *
Field_varstring::unpack_key(uchar *to, const uchar *key, uint max_length)
{
/* get length of the blob key */
uint32 length= *key++;
if (max_length > 255)
length+= (*key++) << 8;
/* put the length into the record buffer */
if (length_bytes == 1)
*ptr= (uchar) length;
else
int2store(ptr, length);
memcpy(ptr + length_bytes, key, length);
return key + length;
}
#endif
/**
Create a packed key that will be used for storage in the index tree.
@param to Store packed key segment here
@param from Key segment (as given to index_read())
@param max_length Max length of key
@return
end of key storage
*/
uchar * Field_varstring::pack_key_from_key_image(uchar *to, const uchar *from,
uint max_length)
{
/* Key length is always stored as 2 bytes */
uint length= uint2korr(from);
if (length > max_length)
length= max_length;
*to++= (char) (length & 255);
if (max_length > 255)
*to++= (char) (length >> 8);
if (length)
memcpy(to, from+HA_KEY_BLOB_LENGTH, length);
return to+length;
}
/**
Unpack a varstring field from row data.
This method is used to unpack a varstring field from a master
whose size of the field is less than that of the slave.
@note
The string length is always packed little-endian.
@param to Destination of the data
@param from Source of the data
@param param_data Length bytes from the master's field data
@return New pointer into memory based on from + length of the data
*/
const uchar *
Field_varstring::unpack(uchar *to, const uchar *from, const uchar *from_end,
uint param_data)
{
uint length;
uint l_bytes= (param_data && (param_data < field_length)) ?
(param_data <= 255) ? 1 : 2 : length_bytes;
if (from + l_bytes > from_end)
return 0; // Error in data
if (l_bytes == 1)
{
to[0]= *from++;
length= to[0];
if (length_bytes == 2)
to[1]= 0;
}
else /* l_bytes == 2 */
{
length= uint2korr(from);
to[0]= *from++;
to[1]= *from++;
}
if (length)
{
if (from + length > from_end || length > field_length)
return 0; // Error in data
memcpy(to+ length_bytes, from, length);
}
return from+length;
}
int Field_varstring::pack_cmp(const uchar *a, const uchar *b,
uint key_length_arg,
bool insert_or_update)
{
uint a_length, b_length;
if (key_length_arg > 255)
{
a_length=uint2korr(a); a+= 2;
b_length=uint2korr(b); b+= 2;
}
else
{
a_length= (uint) *a++;
b_length= (uint) *b++;
}
return field_charset->coll->strnncollsp(field_charset,
a, a_length,
b, b_length,
insert_or_update);
}
int Field_varstring::pack_cmp(const uchar *b, uint key_length_arg,
bool insert_or_update)
{
uchar *a= ptr+ length_bytes;
uint a_length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
uint b_length;
uint local_char_length= ((field_charset->mbmaxlen > 1) ?
key_length_arg / field_charset->mbmaxlen :
key_length_arg);
if (key_length_arg > 255)
{
b_length=uint2korr(b); b+= HA_KEY_BLOB_LENGTH;
}
else
b_length= (uint) *b++;
if (a_length > local_char_length)
{
local_char_length= my_charpos(field_charset, a, a+a_length,
local_char_length);
set_if_smaller(a_length, local_char_length);
}
return field_charset->coll->strnncollsp(field_charset,
a, a_length,
b, b_length,
insert_or_update);
}
uint Field_varstring::packed_col_length(const uchar *data_ptr, uint length)
{
if (length > 255)
return uint2korr(data_ptr)+2;
return (uint) *data_ptr + 1;
}
uint Field_varstring::max_packed_col_length(uint max_length)
{
return (max_length > 255 ? 2 : 1)+max_length;
}
uint Field_varstring::get_key_image(uchar *buff, uint length, imagetype type)
{
uint f_length= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
uint local_char_length= length / field_charset->mbmaxlen;
uchar *pos= ptr+length_bytes;
local_char_length= my_charpos(field_charset, pos, pos + f_length,
local_char_length);
set_if_smaller(f_length, local_char_length);
/* Key is always stored with 2 bytes */
int2store(buff,f_length);
memcpy(buff+HA_KEY_BLOB_LENGTH, pos, f_length);
if (f_length < length)
{
/*
Must clear this as we do a memcmp in opt_range.cc to detect
identical keys
*/
bzero(buff+HA_KEY_BLOB_LENGTH+f_length, (length-f_length));
}
return HA_KEY_BLOB_LENGTH+f_length;
}
void Field_varstring::set_key_image(const uchar *buff,uint length)
{
length= uint2korr(buff); // Real length is here
(void) Field_varstring::store((const char*) buff+HA_KEY_BLOB_LENGTH, length,
field_charset);
}
int Field_varstring::cmp_binary(const uchar *a_ptr, const uchar *b_ptr,
uint32 max_length)
{
uint32 a_length,b_length;
if (length_bytes == 1)
{
a_length= (uint) *a_ptr;
b_length= (uint) *b_ptr;
}
else
{
a_length= uint2korr(a_ptr);
b_length= uint2korr(b_ptr);
}
set_if_smaller(a_length, max_length);
set_if_smaller(b_length, max_length);
if (a_length != b_length)
return 1;
return memcmp(a_ptr+length_bytes, b_ptr+length_bytes, a_length);
}
Field *Field_varstring::new_field(MEM_ROOT *root, struct st_table *new_table,
bool keep_type)
{
Field_varstring *res= (Field_varstring*) Field::new_field(root, new_table,
keep_type);
if (res)
res->length_bytes= length_bytes;
return res;
}
Field *Field_varstring::new_key_field(MEM_ROOT *root,
struct st_table *new_table,
uchar *new_ptr, uchar *new_null_ptr,
uint new_null_bit)
{
Field_varstring *res;
if ((res= (Field_varstring*) Field::new_key_field(root,
new_table,
new_ptr,
new_null_ptr,
new_null_bit)))
{
/* Keys length prefixes are always packed with 2 bytes */
res->length_bytes= 2;
}
return res;
}
uint Field_varstring::is_equal(Create_field *new_field)
{
if (new_field->sql_type == real_type() &&
new_field->charset == field_charset)
{
if (new_field->length == max_display_length())
return IS_EQUAL_YES;
if (new_field->length > max_display_length() &&
((new_field->length <= 255 && max_display_length() <= 255) ||
(new_field->length > 255 && max_display_length() > 255)))
return IS_EQUAL_PACK_LENGTH; // VARCHAR, longer variable length
}
return IS_EQUAL_NO;
}
void Field_varstring::hash(ulong *nr, ulong *nr2)
{
if (is_null())
{
*nr^= (*nr << 1) | 1;
}
else
{
uint len= length_bytes == 1 ? (uint) *ptr : uint2korr(ptr);
CHARSET_INFO *cs= charset();
cs->coll->hash_sort(cs, ptr + length_bytes, len, nr, nr2);
}
}
/****************************************************************************
** blob type
** A blob is saved as a length and a pointer. The length is stored in the
** packlength slot and may be from 1-4.
****************************************************************************/
Field_blob::Field_blob(uchar *ptr_arg, uchar *null_ptr_arg, uchar null_bit_arg,
enum utype unireg_check_arg, const char *field_name_arg,
TABLE_SHARE *share, uint blob_pack_length,
CHARSET_INFO *cs)
:Field_longstr(ptr_arg, BLOB_PACK_LENGTH_TO_MAX_LENGH(blob_pack_length),
null_ptr_arg, null_bit_arg, unireg_check_arg, field_name_arg,
cs),
packlength(blob_pack_length)
{
flags|= BLOB_FLAG;
share->blob_fields++;
/* TODO: why do not fill table->s->blob_field array here? */
}
void Field_blob::store_length(uchar *i_ptr, uint i_packlength, uint32 i_number)
{
store_lowendian(i_number, i_ptr, i_packlength);
}
uint32 Field_blob::get_length(const uchar *pos, uint packlength_arg)
{
return (uint32)read_lowendian(pos, packlength_arg);
}
int Field_blob::store(const char *from,uint length,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
uint copy_length, new_length;
const char *well_formed_error_pos;
const char *cannot_convert_error_pos;
const char *from_end_pos, *tmp;
char buff[STRING_BUFFER_USUAL_SIZE];
String tmpstr(buff,sizeof(buff), &my_charset_bin);
if (!length)
{
bzero(ptr,Field_blob::pack_length());
return 0;
}
/*
If the 'from' address is in the range of the temporary 'value'-
object we need to copy the content to a different location or it will be
invalidated when the 'value'-object is reallocated to make room for
the new character set.
*/
if (from >= value.ptr() && from <= value.ptr()+value.length())
{
/*
If content of the 'from'-address is cached in the 'value'-object
it is possible that the content needs a character conversion.
*/
uint32 dummy_offset;
if (!String::needs_conversion(length, cs, field_charset, &dummy_offset))
{
Field_blob::store_length(length);
bmove(ptr+packlength,(char*) &from,sizeof(char*));
return 0;
}
if (tmpstr.copy(from, length, cs))
goto oom_error;
from= tmpstr.ptr();
}
new_length= min(max_data_length(), field_charset->mbmaxlen * length);
if (value.alloc(new_length))
goto oom_error;
if (f_is_hex_escape(flags))
{
copy_length= my_copy_with_hex_escaping(field_charset,
(char*) value.ptr(), new_length,
from, length);
Field_blob::store_length(copy_length);
tmp= value.ptr();
bmove(ptr + packlength, (uchar*) &tmp, sizeof(char*));
return 0;
}
/*
"length" is OK as "nchars" argument to well_formed_copy_nchars as this
is never used to limit the length of the data. The cut of long data
is done with the new_length value.
*/
copy_length= well_formed_copy_nchars(field_charset,
(char*) value.ptr(), new_length,
cs, from, length,
length,
&well_formed_error_pos,
&cannot_convert_error_pos,
&from_end_pos);
Field_blob::store_length(copy_length);
tmp= value.ptr();
bmove(ptr+packlength,(uchar*) &tmp,sizeof(char*));
if (check_string_copy_error(this, well_formed_error_pos,
cannot_convert_error_pos, from + length, cs))
return 2;
return report_if_important_data(from_end_pos, from + length, TRUE);
oom_error:
/* Fatal OOM error */
bzero(ptr,Field_blob::pack_length());
return -1;
}
int Field_blob::store(double nr)
{
CHARSET_INFO *cs=charset();
value.set_real(nr, 2, cs);
return Field_blob::store(value.ptr(),(uint) value.length(), cs);
}
int Field_blob::store(longlong nr, bool unsigned_val)
{
CHARSET_INFO *cs=charset();
value.set_int(nr, unsigned_val, cs);
return Field_blob::store(value.ptr(), (uint) value.length(), cs);
}
double Field_blob::val_real(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
char *end_not_used, *blob;
uint32 length;
CHARSET_INFO *cs;
memcpy_fixed(&blob,ptr+packlength,sizeof(char*));
if (!blob)
return 0.0;
length= get_length(ptr);
cs= charset();
return my_strntod(cs, blob, length, &end_not_used, ¬_used);
}
longlong Field_blob::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int not_used;
char *blob;
memcpy_fixed(&blob,ptr+packlength,sizeof(char*));
if (!blob)
return 0;
uint32 length=get_length(ptr);
return my_strntoll(charset(),blob,length,10,NULL,¬_used);
}
String *Field_blob::val_str(String *val_buffer __attribute__((unused)),
String *val_ptr)
{
ASSERT_COLUMN_MARKED_FOR_READ;
char *blob;
memcpy_fixed(&blob,ptr+packlength,sizeof(char*));
if (!blob)
val_ptr->set("",0,charset()); // A bit safer than ->length(0)
else
val_ptr->set((const char*) blob,get_length(ptr),charset());
return val_ptr;
}
my_decimal *Field_blob::val_decimal(my_decimal *decimal_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
const char *blob;
size_t length;
memcpy_fixed(&blob, ptr+packlength, sizeof(const uchar*));
if (!blob)
{
blob= "";
length= 0;
}
else
length= get_length(ptr);
str2my_decimal(E_DEC_FATAL_ERROR, blob, length, charset(),
decimal_value);
return decimal_value;
}
int Field_blob::cmp(const uchar *a,uint32 a_length, const uchar *b,
uint32 b_length)
{
return field_charset->coll->strnncollsp(field_charset,
a, a_length, b, b_length,
0);
}
int Field_blob::cmp_max(const uchar *a_ptr, const uchar *b_ptr,
uint max_length)
{
uchar *blob1,*blob2;
memcpy_fixed(&blob1,a_ptr+packlength,sizeof(char*));
memcpy_fixed(&blob2,b_ptr+packlength,sizeof(char*));
uint a_len= get_length(a_ptr), b_len= get_length(b_ptr);
set_if_smaller(a_len, max_length);
set_if_smaller(b_len, max_length);
return Field_blob::cmp(blob1,a_len,blob2,b_len);
}
int Field_blob::cmp_binary(const uchar *a_ptr, const uchar *b_ptr,
uint32 max_length)
{
char *a,*b;
uint diff;
uint32 a_length,b_length;
memcpy_fixed(&a,a_ptr+packlength,sizeof(char*));
memcpy_fixed(&b,b_ptr+packlength,sizeof(char*));
a_length=get_length(a_ptr);
if (a_length > max_length)
a_length=max_length;
b_length=get_length(b_ptr);
if (b_length > max_length)
b_length=max_length;
diff=memcmp(a,b,min(a_length,b_length));
return diff ? diff : (int) (a_length - b_length);
}
/* The following is used only when comparing a key */
uint Field_blob::get_key_image(uchar *buff,uint length, imagetype type_arg)
{
uint32 blob_length= get_length(ptr);
uchar *blob;
#ifdef HAVE_SPATIAL
if (type_arg == itMBR)
{
const char *dummy;
MBR mbr;
Geometry_buffer buffer;
Geometry *gobj;
const uint image_length= SIZEOF_STORED_DOUBLE*4;
if (blob_length < SRID_SIZE)
{
bzero(buff, image_length);
return image_length;
}
get_ptr(&blob);
gobj= Geometry::construct(&buffer, (char*) blob, blob_length);
if (!gobj || gobj->get_mbr(&mbr, &dummy))
bzero(buff, image_length);
else
{
float8store(buff, mbr.xmin);
float8store(buff+8, mbr.xmax);
float8store(buff+16, mbr.ymin);
float8store(buff+24, mbr.ymax);
}
return image_length;
}
#endif /*HAVE_SPATIAL*/
get_ptr(&blob);
uint local_char_length= length / field_charset->mbmaxlen;
local_char_length= my_charpos(field_charset, blob, blob + blob_length,
local_char_length);
set_if_smaller(blob_length, local_char_length);
if ((uint32) length > blob_length)
{
/*
Must clear this as we do a memcmp in opt_range.cc to detect
identical keys
*/
bzero(buff+HA_KEY_BLOB_LENGTH+blob_length, (length-blob_length));
length=(uint) blob_length;
}
int2store(buff,length);
memcpy(buff+HA_KEY_BLOB_LENGTH, blob, length);
return HA_KEY_BLOB_LENGTH+length;
}
void Field_blob::set_key_image(const uchar *buff,uint length)
{
length= uint2korr(buff);
(void) Field_blob::store((const char*) buff+HA_KEY_BLOB_LENGTH, length,
field_charset);
}
int Field_blob::key_cmp(const uchar *key_ptr, uint max_key_length)
{
uchar *blob1;
uint blob_length=get_length(ptr);
memcpy_fixed(&blob1,ptr+packlength,sizeof(char*));
CHARSET_INFO *cs= charset();
uint local_char_length= max_key_length / cs->mbmaxlen;
local_char_length= my_charpos(cs, blob1, blob1+blob_length,
local_char_length);
set_if_smaller(blob_length, local_char_length);
return Field_blob::cmp(blob1, blob_length,
key_ptr+HA_KEY_BLOB_LENGTH,
uint2korr(key_ptr));
}
int Field_blob::key_cmp(const uchar *a,const uchar *b)
{
return Field_blob::cmp(a+HA_KEY_BLOB_LENGTH, uint2korr(a),
b+HA_KEY_BLOB_LENGTH, uint2korr(b));
}
/**
Save the field metadata for blob fields.
Saves the pack length in the first byte of the field metadata array
at index of *metadata_ptr.
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_blob::do_save_field_metadata(uchar *metadata_ptr)
{
*metadata_ptr= pack_length_no_ptr();
return 1;
}
uint32 Field_blob::sort_length() const
{
return (uint32) (current_thd->variables.max_sort_length +
(field_charset == &my_charset_bin ? 0 : packlength));
}
void Field_blob::sort_string(uchar *to,uint length)
{
uchar *blob;
uint blob_length=get_length();
if (!blob_length)
bzero(to,length);
else
{
if (field_charset == &my_charset_bin)
{
uchar *pos;
/*
Store length of blob last in blob to shorter blobs before longer blobs
*/
length-= packlength;
pos= to+length;
store_bigendian(blob_length, pos, packlength);
}
memcpy_fixed(&blob,ptr+packlength,sizeof(char*));
blob_length=my_strnxfrm(field_charset,
to, length, blob, blob_length);
DBUG_ASSERT(blob_length == length);
}
}
void Field_blob::sql_type(String &res) const
{
const char *str;
uint length;
switch (packlength) {
default: str="tiny"; length=4; break;
case 2: str=""; length=0; break;
case 3: str="medium"; length= 6; break;
case 4: str="long"; length=4; break;
}
res.set_ascii(str,length);
if (charset() == &my_charset_bin)
res.append(STRING_WITH_LEN("blob"));
else
{
res.append(STRING_WITH_LEN("text"));
}
}
uchar *Field_blob::pack(uchar *to, const uchar *from, uint max_length)
{
DBUG_ENTER("Field_blob::pack");
DBUG_PRINT("enter", ("to: 0x%lx; from: 0x%lx; max_length: %u",
(ulong) to, (ulong) from, max_length));
DBUG_DUMP("record", from, table->s->reclength);
uchar *save= ptr;
ptr= (uchar*) from;
uint32 length=get_length(); // Length of from string
/*
Store max length, which will occupy packlength bytes. If the max
length given is smaller than the actual length of the blob, we
just store the initial bytes of the blob.
*/
store_length(to, packlength, min(length, max_length));
/*
Store the actual blob data, which will occupy 'length' bytes.
*/
if (length > 0)
{
get_ptr((uchar**) &from);
memcpy(to+packlength, from,length);
}
ptr=save; // Restore org row pointer
DBUG_DUMP("packed", to, packlength + length);
DBUG_RETURN(to+packlength+length);
}
/**
Unpack a blob field from row data.
This method is used to unpack a blob field from a master whose size of
the field is less than that of the slave. Note: This method is included
to satisfy inheritance rules, but is not needed for blob fields. It
simply is used as a pass-through to the original unpack() method for
blob fields.
@param to Destination of the data
@param from Source of the data
@param param_data @c TRUE if base types should be stored in little-
endian format, @c FALSE if native format should
be used.
@return New pointer into memory based on from + length of the data
*/
const uchar *Field_blob::unpack(uchar *to, const uchar *from,
const uchar *from_end, uint param_data)
{
DBUG_ENTER("Field_blob::unpack");
DBUG_PRINT("enter", ("to: 0x%lx; from: 0x%lx; param_data: %u",
(ulong) to, (ulong) from, param_data));
uint const master_packlength=
param_data > 0 ? param_data & 0xFF : packlength;
if (from + master_packlength > from_end)
DBUG_RETURN(0); // Error in data
uint32 const length= get_length(from, master_packlength);
DBUG_DUMP("packed", from, length + master_packlength);
bitmap_set_bit(table->write_set, field_index);
if (from + master_packlength + length > from_end)
DBUG_RETURN(0);
store(reinterpret_cast<const char*>(from) + master_packlength,
length, field_charset);
DBUG_DUMP("record", to, table->s->reclength);
DBUG_RETURN(from + master_packlength + length);
}
/* Keys for blobs are like keys on varchars */
int Field_blob::pack_cmp(const uchar *a, const uchar *b, uint key_length_arg,
bool insert_or_update)
{
uint a_length, b_length;
if (key_length_arg > 255)
{
a_length=uint2korr(a); a+=2;
b_length=uint2korr(b); b+=2;
}
else
{
a_length= (uint) *a++;
b_length= (uint) *b++;
}
return field_charset->coll->strnncollsp(field_charset,
a, a_length,
b, b_length,
insert_or_update);
}
int Field_blob::pack_cmp(const uchar *b, uint key_length_arg,
bool insert_or_update)
{
uchar *a;
uint a_length, b_length;
memcpy_fixed(&a,ptr+packlength,sizeof(char*));
if (!a)
return key_length_arg > 0 ? -1 : 0;
a_length= get_length(ptr);
if (key_length_arg > 255)
{
b_length= uint2korr(b); b+=2;
}
else
b_length= (uint) *b++;
return field_charset->coll->strnncollsp(field_charset,
a, a_length,
b, b_length,
insert_or_update);
}
/** Create a packed key that will be used for storage from a MySQL row. */
uchar *
Field_blob::pack_key(uchar *to, const uchar *from, uint max_length)
{
uchar *save= ptr;
ptr= (uchar*) from;
uint32 length=get_length(); // Length of from string
uint local_char_length= ((field_charset->mbmaxlen > 1) ?
max_length/field_charset->mbmaxlen : max_length);
if (length)
get_ptr((uchar**) &from);
if (length > local_char_length)
local_char_length= my_charpos(field_charset, from, from+length,
local_char_length);
set_if_smaller(length, local_char_length);
*to++= (uchar) length;
if (max_length > 255) // 2 byte length
*to++= (uchar) (length >> 8);
memcpy(to, from, length);
ptr=save; // Restore org row pointer
return to+length;
}
/**
Unpack a blob key into a record buffer.
A blob key has a maximum size of 64K-1.
In its packed form, the length field is one or two bytes long,
depending on 'max_length'.
Depending on the maximum length of a blob, its length field is
put into 1 to 4 bytes. This is a property of the blob object,
described by 'packlength'.
Blobs are internally stored apart from the record buffer, which
contains a pointer to the blob buffer.
@param to Pointer into the record buffer.
@param from Pointer to the packed key.
@param max_length Key length limit from key description.
@return
Pointer into 'from' past the last byte copied from packed key.
*/
#ifdef NOT_USED
const uchar *
Field_blob::unpack_key(uchar *to, const uchar *from, uint max_length)
{
/* get length of the blob key */
uint32 length= *from++;
if (max_length > 255)
length+= *from++ << 8;
/* put the length into the record buffer */
store_length(to, packlength, length);
/* put the address of the blob buffer or NULL */
if (length)
memcpy_fixed(to + packlength, &from, sizeof(from));
else
bzero(to + packlength, sizeof(from));
/* point to first byte of next field in 'from' */
return from + length;
}
#endif
/** Create a packed key that will be used for storage from a MySQL key. */
uchar *Field_blob::pack_key_from_key_image(uchar *to, const uchar *from,
uint max_length)
{
uint length=uint2korr(from);
if (length > max_length)
length=max_length;
*to++= (char) (length & 255);
if (max_length > 255)
*to++= (char) (length >> 8);
if (length)
memcpy(to, from+HA_KEY_BLOB_LENGTH, length);
return to+length;
}
uint Field_blob::packed_col_length(const uchar *data_ptr, uint length)
{
if (length > 255)
return uint2korr(data_ptr)+2;
return (uint) *data_ptr + 1;
}
uint Field_blob::max_packed_col_length(uint max_length)
{
return (max_length > 255 ? 2 : 1)+max_length;
}
uint Field_blob::is_equal(Create_field *new_field)
{
if (field_flags_are_binary() != new_field->field_flags_are_binary())
return 0;
return ((new_field->sql_type == get_blob_type_from_length(max_data_length()))
&& new_field->charset == field_charset &&
new_field->pack_length == pack_length());
}
#ifdef HAVE_SPATIAL
void Field_geom::sql_type(String &res) const
{
CHARSET_INFO *cs= &my_charset_latin1;
switch (geom_type)
{
case GEOM_POINT:
res.set(STRING_WITH_LEN("point"), cs);
break;
case GEOM_LINESTRING:
res.set(STRING_WITH_LEN("linestring"), cs);
break;
case GEOM_POLYGON:
res.set(STRING_WITH_LEN("polygon"), cs);
break;
case GEOM_MULTIPOINT:
res.set(STRING_WITH_LEN("multipoint"), cs);
break;
case GEOM_MULTILINESTRING:
res.set(STRING_WITH_LEN("multilinestring"), cs);
break;
case GEOM_MULTIPOLYGON:
res.set(STRING_WITH_LEN("multipolygon"), cs);
break;
case GEOM_GEOMETRYCOLLECTION:
res.set(STRING_WITH_LEN("geometrycollection"), cs);
break;
default:
res.set(STRING_WITH_LEN("geometry"), cs);
}
}
int Field_geom::store(double nr)
{
my_message(ER_CANT_CREATE_GEOMETRY_OBJECT,
ER(ER_CANT_CREATE_GEOMETRY_OBJECT), MYF(0));
return -1;
}
int Field_geom::store(longlong nr, bool unsigned_val)
{
my_message(ER_CANT_CREATE_GEOMETRY_OBJECT,
ER(ER_CANT_CREATE_GEOMETRY_OBJECT), MYF(0));
return -1;
}
int Field_geom::store_decimal(const my_decimal *)
{
my_message(ER_CANT_CREATE_GEOMETRY_OBJECT,
ER(ER_CANT_CREATE_GEOMETRY_OBJECT), MYF(0));
return -1;
}
int Field_geom::store(const char *from, uint length, CHARSET_INFO *cs)
{
if (!length)
bzero(ptr, Field_blob::pack_length());
else
{
if (from == Geometry::bad_geometry_data.ptr())
goto err;
// Check given WKB
uint32 wkb_type;
if (length < SRID_SIZE + WKB_HEADER_SIZE + 4)
goto err;
wkb_type= uint4korr(from + SRID_SIZE + 1);
if (wkb_type < (uint32) Geometry::wkb_point ||
wkb_type > (uint32) Geometry::wkb_last)
goto err;
Field_blob::store_length(length);
if (table->copy_blobs || length <= MAX_FIELD_WIDTH)
{ // Must make a copy
value.copy(from, length, cs);
from= value.ptr();
}
bmove(ptr + packlength, (char*) &from, sizeof(char*));
}
return 0;
err:
bzero(ptr, Field_blob::pack_length());
my_message(ER_CANT_CREATE_GEOMETRY_OBJECT,
ER(ER_CANT_CREATE_GEOMETRY_OBJECT), MYF(0));
return -1;
}
#endif /*HAVE_SPATIAL*/
/****************************************************************************
** enum type.
** This is a string which only can have a selection of different values.
** If one uses this string in a number context one gets the type number.
****************************************************************************/
enum ha_base_keytype Field_enum::key_type() const
{
switch (packlength) {
default: return HA_KEYTYPE_BINARY;
case 2: return HA_KEYTYPE_USHORT_INT;
case 3: return HA_KEYTYPE_UINT24;
case 4: return HA_KEYTYPE_ULONG_INT;
case 8: return HA_KEYTYPE_ULONGLONG;
}
}
void Field_enum::store_type(ulonglong value)
{
store_lowendian(value, ptr, packlength);
}
/**
@note
Storing a empty string in a enum field gives a warning
(if there isn't a empty value in the enum)
*/
int Field_enum::store(const char *from,uint length,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int err= 0;
uint32 not_used;
char buff[STRING_BUFFER_USUAL_SIZE];
String tmpstr(buff,sizeof(buff), &my_charset_bin);
/* Convert character set if necessary */
if (String::needs_conversion(length, cs, field_charset, ¬_used))
{
uint dummy_errors;
tmpstr.copy(from, length, cs, field_charset, &dummy_errors);
from= tmpstr.ptr();
length= tmpstr.length();
}
/* Remove end space */
length= field_charset->cset->lengthsp(field_charset, from, length);
uint tmp=find_type2(typelib, from, length, field_charset);
if (!tmp)
{
if (length < 6) // Can't be more than 99999 enums
{
/* This is for reading numbers with LOAD DATA INFILE */
char *end;
tmp=(uint) my_strntoul(cs,from,length,10,&end,&err);
if (err || end != from+length || tmp > typelib->count)
{
tmp=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
}
if (!table->in_use->count_cuted_fields)
err= 0;
}
else
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
}
store_type((ulonglong) tmp);
return err;
}
int Field_enum::store(double nr)
{
return Field_enum::store((longlong) nr, FALSE);
}
int Field_enum::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
if ((ulonglong) nr > typelib->count || nr == 0)
{
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
if (nr != 0 || table->in_use->count_cuted_fields)
{
nr= 0;
error= 1;
}
}
store_type((ulonglong) (uint) nr);
return error;
}
double Field_enum::val_real(void)
{
return (double) Field_enum::val_int();
}
longlong Field_enum::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
return read_lowendian(ptr, packlength);
}
/**
Save the field metadata for enum fields.
Saves the real type in the first byte and the pack length in the
second byte of the field metadata array at index of *metadata_ptr and
*(metadata_ptr + 1).
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_enum::do_save_field_metadata(uchar *metadata_ptr)
{
*metadata_ptr= real_type();
*(metadata_ptr + 1)= pack_length();
return 2;
}
String *Field_enum::val_str(String *val_buffer __attribute__((unused)),
String *val_ptr)
{
uint tmp=(uint) Field_enum::val_int();
if (!tmp || tmp > typelib->count)
val_ptr->set("", 0, field_charset);
else
val_ptr->set((const char*) typelib->type_names[tmp-1],
typelib->type_lengths[tmp-1],
field_charset);
return val_ptr;
}
int Field_enum::cmp(const uchar *a_ptr, const uchar *b_ptr)
{
uchar *old= ptr;
ptr= (uchar*) a_ptr;
ulonglong a=Field_enum::val_int();
ptr= (uchar*) b_ptr;
ulonglong b=Field_enum::val_int();
ptr= old;
return (a < b) ? -1 : (a > b) ? 1 : 0;
}
void Field_enum::sort_string(uchar *to,uint length __attribute__((unused)))
{
ulonglong value=Field_enum::val_int();
to+=packlength-1;
for (uint i=0 ; i < packlength ; i++)
{
*to-- = (uchar) (value & 255);
value>>=8;
}
}
void Field_enum::sql_type(String &res) const
{
char buffer[255];
String enum_item(buffer, sizeof(buffer), res.charset());
res.length(0);
res.append(STRING_WITH_LEN("enum("));
bool flag=0;
uint *len= typelib->type_lengths;
for (const char **pos= typelib->type_names; *pos; pos++, len++)
{
uint dummy_errors;
if (flag)
res.append(',');
/* convert to res.charset() == utf8, then quote */
enum_item.copy(*pos, *len, charset(), res.charset(), &dummy_errors);
append_unescaped(&res, enum_item.ptr(), enum_item.length());
flag= 1;
}
res.append(')');
}
Field *Field_enum::new_field(MEM_ROOT *root, struct st_table *new_table,
bool keep_type)
{
Field_enum *res= (Field_enum*) Field::new_field(root, new_table, keep_type);
if (res)
res->typelib= copy_typelib(root, typelib);
return res;
}
/*
set type.
This is a string which can have a collection of different values.
Each string value is separated with a ','.
For example "One,two,five"
If one uses this string in a number context one gets the bits as a longlong
number.
*/
int Field_set::store(const char *from,uint length,CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
bool got_warning= 0;
int err= 0;
char *not_used;
uint not_used2;
uint32 not_used_offset;
char buff[STRING_BUFFER_USUAL_SIZE];
String tmpstr(buff,sizeof(buff), &my_charset_bin);
/* Convert character set if necessary */
if (String::needs_conversion(length, cs, field_charset, ¬_used_offset))
{
uint dummy_errors;
tmpstr.copy(from, length, cs, field_charset, &dummy_errors);
from= tmpstr.ptr();
length= tmpstr.length();
}
ulonglong tmp= find_set(typelib, from, length, field_charset,
¬_used, ¬_used2, &got_warning);
if (!tmp && length && length < 22)
{
/* This is for reading numbers with LOAD DATA INFILE */
char *end;
tmp=my_strntoull(cs,from,length,10,&end,&err);
if (err || end != from+length ||
tmp > (ulonglong) (((longlong) 1 << typelib->count) - (longlong) 1))
{
tmp=0;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
}
}
else if (got_warning)
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
store_type(tmp);
return err;
}
int Field_set::store(longlong nr, bool unsigned_val)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int error= 0;
ulonglong max_nr;
if (sizeof(ulonglong)*8 <= typelib->count)
max_nr= ULONGLONG_MAX;
else
max_nr= (ULL(1) << typelib->count) - 1;
if ((ulonglong) nr > max_nr)
{
nr&= max_nr;
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, WARN_DATA_TRUNCATED, 1);
error=1;
}
store_type((ulonglong) nr);
return error;
}
String *Field_set::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ulonglong tmp=(ulonglong) Field_enum::val_int();
uint bitnr=0;
val_buffer->length(0);
val_buffer->set_charset(field_charset);
while (tmp && bitnr < (uint) typelib->count)
{
if (tmp & 1)
{
if (val_buffer->length())
val_buffer->append(&field_separator, 1, &my_charset_latin1);
String str(typelib->type_names[bitnr],
typelib->type_lengths[bitnr],
field_charset);
val_buffer->append(str);
}
tmp>>=1;
bitnr++;
}
return val_buffer;
}
void Field_set::sql_type(String &res) const
{
char buffer[255];
String set_item(buffer, sizeof(buffer), res.charset());
res.length(0);
res.append(STRING_WITH_LEN("set("));
bool flag=0;
uint *len= typelib->type_lengths;
for (const char **pos= typelib->type_names; *pos; pos++, len++)
{
uint dummy_errors;
if (flag)
res.append(',');
/* convert to res.charset() == utf8, then quote */
set_item.copy(*pos, *len, charset(), res.charset(), &dummy_errors);
append_unescaped(&res, set_item.ptr(), set_item.length());
flag= 1;
}
res.append(')');
}
/**
@retval
1 if the fields are equally defined
@retval
0 if the fields are unequally defined
*/
bool Field::eq_def(Field *field)
{
if (real_type() != field->real_type() || charset() != field->charset() ||
pack_length() != field->pack_length())
return 0;
return 1;
}
/**
Compare the first t1::count type names.
@return TRUE if the type names of t1 match those of t2. FALSE otherwise.
*/
static bool compare_type_names(CHARSET_INFO *charset, TYPELIB *t1, TYPELIB *t2)
{
for (uint i= 0; i < t1->count; i++)
if (my_strnncoll(charset,
(const uchar*) t1->type_names[i],
t1->type_lengths[i],
(const uchar*) t2->type_names[i],
t2->type_lengths[i]))
return FALSE;
return TRUE;
}
/**
@return
returns 1 if the fields are equally defined
*/
bool Field_enum::eq_def(Field *field)
{
TYPELIB *values;
if (!Field::eq_def(field))
return FALSE;
values= ((Field_enum*) field)->typelib;
/* Definition must be strictly equal. */
if (typelib->count != values->count)
return FALSE;
return compare_type_names(field_charset, typelib, values);
}
/**
Check whether two fields can be considered 'equal' for table
alteration purposes. Fields are equal if they retain the same
pack length and if new members are added to the end of the list.
@return IS_EQUAL_YES if fields are compatible.
IS_EQUAL_NO otherwise.
*/
uint Field_enum::is_equal(Create_field *new_field)
{
TYPELIB *values= new_field->interval;
/*
The fields are compatible if they have the same flags,
type, charset and have the same underlying length.
*/
if (new_field->field_flags_are_binary() != field_flags_are_binary() ||
new_field->sql_type != real_type() ||
new_field->charset != field_charset ||
new_field->pack_length != pack_length())
return IS_EQUAL_NO;
/*
Changing the definition of an ENUM or SET column by adding a new
enumeration or set members to the end of the list of valid member
values only alters table metadata and not table data.
*/
if (typelib->count > values->count)
return IS_EQUAL_NO;
/* Check whether there are modification before the end. */
if (! compare_type_names(field_charset, typelib, new_field->interval))
return IS_EQUAL_NO;
return IS_EQUAL_YES;
}
/**
@return
returns 1 if the fields are equally defined
*/
bool Field_num::eq_def(Field *field)
{
if (!Field::eq_def(field))
return 0;
Field_num *from_num= (Field_num*) field;
if (unsigned_flag != from_num->unsigned_flag ||
(zerofill && !from_num->zerofill && !zero_pack()) ||
dec != from_num->dec)
return 0;
return 1;
}
/**
Check whether two numeric fields can be considered 'equal' for table
alteration purposes. Fields are equal if they are of the same type
and retain the same pack length.
*/
uint Field_num::is_equal(Create_field *new_field)
{
return ((new_field->sql_type == real_type()) &&
((new_field->flags & UNSIGNED_FLAG) ==
(uint) (flags & UNSIGNED_FLAG)) &&
((new_field->flags & AUTO_INCREMENT_FLAG) ==
(uint) (flags & AUTO_INCREMENT_FLAG)) &&
(new_field->pack_length == pack_length()));
}
/*
Bit field.
We store the first 0 - 6 uneven bits among the null bits
at the start of the record. The rest bytes are stored in
the record itself.
For example:
CREATE TABLE t1 (a int, b bit(17), c bit(21) not null, d bit(8));
We would store data as follows in the record:
Byte Bit
1 7 - reserve for delete
6 - null bit for 'a'
5 - null bit for 'b'
4 - first (high) bit of 'b'
3 - first (high) bit of 'c'
2 - second bit of 'c'
1 - third bit of 'c'
0 - forth bit of 'c'
2 7 - firth bit of 'c'
6 - null bit for 'd'
3 - 6 four bytes for 'a'
7 - 8 two bytes for 'b'
9 - 10 two bytes for 'c'
11 one byte for 'd'
*/
Field_bit::Field_bit(uchar *ptr_arg, uint32 len_arg, uchar *null_ptr_arg,
uchar null_bit_arg, uchar *bit_ptr_arg, uchar bit_ofs_arg,
enum utype unireg_check_arg, const char *field_name_arg)
: Field(ptr_arg, len_arg, null_ptr_arg, null_bit_arg,
unireg_check_arg, field_name_arg),
bit_ptr(bit_ptr_arg), bit_ofs(bit_ofs_arg), bit_len(len_arg & 7),
bytes_in_rec(len_arg / 8)
{
flags|= UNSIGNED_FLAG;
/*
Ensure that Field::eq() can distinguish between two different bit fields.
(two bit fields that are not null, may have same ptr and null_ptr)
*/
if (!null_ptr_arg)
null_bit= bit_ofs_arg;
}
void Field_bit::hash(ulong *nr, ulong *nr2)
{
if (is_null())
{
*nr^= (*nr << 1) | 1;
}
else
{
CHARSET_INFO *cs= &my_charset_bin;
longlong value= Field_bit::val_int();
uchar tmp[8];
mi_int8store(tmp,value);
cs->coll->hash_sort(cs, tmp, 8, nr, nr2);
}
}
size_t
Field_bit::do_last_null_byte() const
{
/*
Code elsewhere is assuming that bytes are 8 bits, so I'm using
that value instead of the correct one: CHAR_BIT.
REFACTOR SUGGESTION (Matz): Change to use the correct number of
bits. On systems with CHAR_BIT > 8 (not very common), the storage
will lose the extra bits.
*/
DBUG_PRINT("test", ("bit_ofs: %d, bit_len: %d bit_ptr: 0x%lx",
bit_ofs, bit_len, (long) bit_ptr));
uchar *result;
if (bit_len == 0)
result= null_ptr;
else if (bit_ofs + bit_len > 8)
result= bit_ptr + 1;
else
result= bit_ptr;
if (result)
return (size_t) (result - table->record[0]) + 1;
return LAST_NULL_BYTE_UNDEF;
}
Field *Field_bit::new_key_field(MEM_ROOT *root,
struct st_table *new_table,
uchar *new_ptr, uchar *new_null_ptr,
uint new_null_bit)
{
Field_bit *res;
if ((res= (Field_bit*) Field::new_key_field(root, new_table,
new_ptr, new_null_ptr,
new_null_bit)))
{
/* Move bits normally stored in null_pointer to new_ptr */
res->bit_ptr= new_ptr;
res->bit_ofs= 0;
if (bit_len)
res->ptr++; // Store rest of data here
}
return res;
}
uint Field_bit::is_equal(Create_field *new_field)
{
return (new_field->sql_type == real_type() &&
new_field->length == max_display_length());
}
int Field_bit::store(const char *from, uint length, CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int delta;
for (; length && !*from; from++, length--) // skip left 0's
;
delta= bytes_in_rec - length;
if (delta < -1 ||
(delta == -1 && (uchar) *from > ((1 << bit_len) - 1)) ||
(!bit_len && delta < 0))
{
set_rec_bits((1 << bit_len) - 1, bit_ptr, bit_ofs, bit_len);
memset(ptr, 0xff, bytes_in_rec);
if (table->in_use->really_abort_on_warning())
set_warning(MYSQL_ERROR::WARN_LEVEL_ERROR, ER_DATA_TOO_LONG, 1);
else
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
/* delta is >= -1 here */
if (delta > 0)
{
if (bit_len)
clr_rec_bits(bit_ptr, bit_ofs, bit_len);
bzero(ptr, delta);
memcpy(ptr + delta, from, length);
}
else if (delta == 0)
{
if (bit_len)
clr_rec_bits(bit_ptr, bit_ofs, bit_len);
memcpy(ptr, from, length);
}
else
{
if (bit_len)
{
set_rec_bits((uchar) *from, bit_ptr, bit_ofs, bit_len);
from++;
}
memcpy(ptr, from, bytes_in_rec);
}
return 0;
}
int Field_bit::store(double nr)
{
return Field_bit::store((longlong) nr, FALSE);
}
int Field_bit::store(longlong nr, bool unsigned_val)
{
char buf[8];
mi_int8store(buf, nr);
return store(buf, 8, NULL);
}
int Field_bit::store_decimal(const my_decimal *val)
{
int err= 0;
longlong i= convert_decimal2longlong(val, 1, &err);
return test(err | store(i, TRUE));
}
double Field_bit::val_real(void)
{
return (double) Field_bit::val_int();
}
longlong Field_bit::val_int(void)
{
ASSERT_COLUMN_MARKED_FOR_READ;
ulonglong bits= 0;
if (bit_len)
{
bits= get_rec_bits(bit_ptr, bit_ofs, bit_len);
bits<<= (bytes_in_rec * 8);
}
switch (bytes_in_rec) {
case 0: return bits;
case 1: return bits | (ulonglong) ptr[0];
case 2: return bits | mi_uint2korr(ptr);
case 3: return bits | mi_uint3korr(ptr);
case 4: return bits | mi_uint4korr(ptr);
case 5: return bits | mi_uint5korr(ptr);
case 6: return bits | mi_uint6korr(ptr);
case 7: return bits | mi_uint7korr(ptr);
default: return mi_uint8korr(ptr + bytes_in_rec - sizeof(longlong));
}
}
String *Field_bit::val_str(String *val_buffer,
String *val_ptr __attribute__((unused)))
{
ASSERT_COLUMN_MARKED_FOR_READ;
char buff[sizeof(longlong)];
uint length= min(pack_length(), sizeof(longlong));
ulonglong bits= val_int();
mi_int8store(buff,bits);
val_buffer->alloc(length);
memcpy_fixed((char*) val_buffer->ptr(), buff+8-length, length);
val_buffer->length(length);
val_buffer->set_charset(&my_charset_bin);
return val_buffer;
}
my_decimal *Field_bit::val_decimal(my_decimal *deciaml_value)
{
ASSERT_COLUMN_MARKED_FOR_READ;
int2my_decimal(E_DEC_FATAL_ERROR, val_int(), 1, deciaml_value);
return deciaml_value;
}
/*
Compare two bit fields using pointers within the record.
SYNOPSIS
cmp_max()
a Pointer to field->ptr in first record
b Pointer to field->ptr in second record
max_len Maximum length used in index
DESCRIPTION
This method is used from key_rec_cmp used by merge sorts used
by partitioned index read and later other similar places.
The a and b pointer must be pointers to the field in a record
(not the table->record[0] necessarily)
*/
int Field_bit::cmp_max(const uchar *a, const uchar *b, uint max_len)
{
my_ptrdiff_t a_diff= a - ptr;
my_ptrdiff_t b_diff= b - ptr;
if (bit_len)
{
int flag;
uchar bits_a= get_rec_bits(bit_ptr+a_diff, bit_ofs, bit_len);
uchar bits_b= get_rec_bits(bit_ptr+b_diff, bit_ofs, bit_len);
if ((flag= (int) (bits_a - bits_b)))
return flag;
}
return memcmp(a, b, field_length);
}
int Field_bit::key_cmp(const uchar *str, uint length)
{
if (bit_len)
{
int flag;
uchar bits= get_rec_bits(bit_ptr, bit_ofs, bit_len);
if ((flag= (int) (bits - *str)))
return flag;
str++;
length--;
}
return memcmp(ptr, str, length);
}
int Field_bit::cmp_offset(uint row_offset)
{
if (bit_len)
{
int flag;
uchar bits_a= get_rec_bits(bit_ptr, bit_ofs, bit_len);
uchar bits_b= get_rec_bits(bit_ptr + row_offset, bit_ofs, bit_len);
if ((flag= (int) (bits_a - bits_b)))
return flag;
}
return memcmp(ptr, ptr + row_offset, bytes_in_rec);
}
uint Field_bit::get_key_image(uchar *buff, uint length, imagetype type_arg)
{
if (bit_len)
{
uchar bits= get_rec_bits(bit_ptr, bit_ofs, bit_len);
*buff++= bits;
length--;
}
uint data_length = min(length, bytes_in_rec);
memcpy(buff, ptr, data_length);
return data_length + 1;
}
/**
Save the field metadata for bit fields.
Saves the bit length in the first byte and bytes in record in the
second byte of the field metadata array at index of *metadata_ptr and
*(metadata_ptr + 1).
@param metadata_ptr First byte of field metadata
@returns number of bytes written to metadata_ptr
*/
int Field_bit::do_save_field_metadata(uchar *metadata_ptr)
{
/*
Since this class and Field_bit_as_char have different ideas of
what should be stored here, we compute the values of the metadata
explicitly using the field_length.
*/
metadata_ptr[0]= field_length % 8;
metadata_ptr[1]= field_length / 8;
return 2;
}
/**
Returns the number of bytes field uses in row-based replication
row packed size.
This method is used in row-based replication to determine the number
of bytes that the field consumes in the row record format. This is
used to skip fields in the master that do not exist on the slave.
@param field_metadata Encoded size in field metadata
@returns The size of the field based on the field metadata.
*/
uint Field_bit::pack_length_from_metadata(uint field_metadata)
{
uint const from_len= (field_metadata >> 8U) & 0x00ff;
uint const from_bit_len= field_metadata & 0x00ff;
uint const source_size= from_len + ((from_bit_len > 0) ? 1 : 0);
return (source_size);
}
/**
Check to see if field size is compatible with destination.
This method is used in row-based replication to verify that the slave's
field size is less than or equal to the master's field size. The
encoded field metadata (from the master or source) is decoded and compared
to the size of this field (the slave or destination).
@param field_metadata Encoded size in field metadata
@retval 0 if this field's size is < the source field's size
@retval 1 if this field's size is >= the source field's size
*/
int Field_bit::compatible_field_size(uint field_metadata,
const Relay_log_info * __attribute__((unused)),
uint16 mflags)
{
uint from_bit_len= 8 * (field_metadata >> 8) + (field_metadata & 0xff);
uint to_bit_len= max_display_length();
/*
If the bit length exact flag is clear, we are dealing with an old
master, so we allow some less strict behaviour if replicating by
moving both bit lengths to an even multiple of 8.
We do this by computing the number of bytes to store the field
instead, and then compare the result.
*/
if (!(mflags & Table_map_log_event::TM_BIT_LEN_EXACT_F)) {
from_bit_len= (from_bit_len + 7) / 8;
to_bit_len= (to_bit_len + 7) / 8;
}
return from_bit_len <= to_bit_len;
}
void Field_bit::sql_type(String &res) const
{
CHARSET_INFO *cs= res.charset();
ulong length= cs->cset->snprintf(cs, (char*) res.ptr(), res.alloced_length(),
"bit(%d)", (int) field_length);
res.length((uint) length);
}
uchar *
Field_bit::pack(uchar *to, const uchar *from, uint max_length)
{
DBUG_ASSERT(max_length > 0);
uint length;
if (bit_len > 0)
{
/*
We have the following:
ptr Points into a field in record R1
from Points to a field in a record R2
bit_ptr Points to the byte (in the null bytes) that holds the
odd bits of R1
from_bitp Points to the byte that holds the odd bits of R2
We have the following:
ptr - bit_ptr = from - from_bitp
We want to isolate 'from_bitp', so this gives:
ptr - bit_ptr - from = - from_bitp
- ptr + bit_ptr + from = from_bitp
bit_ptr + from - ptr = from_bitp
*/
uchar bits= get_rec_bits(bit_ptr + (from - ptr), bit_ofs, bit_len);
*to++= bits;
}
length= min(bytes_in_rec, max_length - (bit_len > 0));
memcpy(to, from, length);
return to + length;
}
/**
Unpack a bit field from row data.
This method is used to unpack a bit field from a master whose size
of the field is less than that of the slave.
@param to Destination of the data
@param from Source of the data
@param param_data Bit length (upper) and length (lower) values
@return New pointer into memory based on from + length of the data
*/
const uchar *
Field_bit::unpack(uchar *to, const uchar *from, const uchar *from_end,
uint param_data)
{
uint const from_len= (param_data >> 8U) & 0x00ff;
uint const from_bit_len= param_data & 0x00ff;
/*
If the parameter data is zero (i.e., undefined), or if the master
and slave have the same sizes, then use the old unpack() method.
*/
if (param_data == 0 ||
((from_bit_len == bit_len) && (from_len == bytes_in_rec)))
{
if (from + bytes_in_rec + test(bit_len) > from_end)
return 0; // Error in data
if (bit_len > 0)
{
/*
set_rec_bits is a macro, don't put the post-increment in the
argument since that might cause strange side-effects.
For the choice of the second argument, see the explanation for
Field_bit::pack().
*/
set_rec_bits(*from, bit_ptr + (to - ptr), bit_ofs, bit_len);
from++;
}
memcpy(to, from, bytes_in_rec);
return from + bytes_in_rec;
}
/*
We are converting a smaller bit field to a larger one here.
To do that, we first need to construct a raw value for the original
bit value stored in the from buffer. Then that needs to be converted
to the larger field then sent to store() for writing to the field.
Lastly the odd bits need to be masked out if the bytes_in_rec > 0.
Otherwise stray bits can cause spurious values.
*/
uint len= from_len + ((from_bit_len > 0) ? 1 : 0);
uint new_len= (field_length + 7) / 8;
if (from + len > from_end || new_len < len)
return 0; // Error in data
char *value= (char *)my_alloca(new_len);
bzero(value, new_len);
memcpy(value + (new_len - len), from, len);
/*
Mask out the unused bits in the partial byte.
TODO: Add code to the master to always mask these bits and remove
the following.
*/
if ((from_bit_len > 0) && (from_len > 0))
value[new_len - len]= value[new_len - len] & ((1U << from_bit_len) - 1);
bitmap_set_bit(table->write_set,field_index);
store(value, new_len, system_charset_info);
my_afree(value);
return from + len;
}
void Field_bit::set_default()
{
if (bit_len > 0)
{
my_ptrdiff_t const offset= table->s->default_values - table->record[0];
uchar bits= get_rec_bits(bit_ptr + offset, bit_ofs, bit_len);
set_rec_bits(bits, bit_ptr, bit_ofs, bit_len);
}
Field::set_default();
}
/*
Bit field support for non-MyISAM tables.
*/
Field_bit_as_char::Field_bit_as_char(uchar *ptr_arg, uint32 len_arg,
uchar *null_ptr_arg, uchar null_bit_arg,
enum utype unireg_check_arg,
const char *field_name_arg)
:Field_bit(ptr_arg, len_arg, null_ptr_arg, null_bit_arg, 0, 0,
unireg_check_arg, field_name_arg)
{
flags|= UNSIGNED_FLAG;
bit_len= 0;
bytes_in_rec= (len_arg + 7) / 8;
}
int Field_bit_as_char::store(const char *from, uint length, CHARSET_INFO *cs)
{
ASSERT_COLUMN_MARKED_FOR_WRITE_OR_COMPUTED;
int delta;
uchar bits= (uchar) (field_length & 7);
for (; length && !*from; from++, length--) // skip left 0's
;
delta= bytes_in_rec - length;
if (delta < 0 ||
(delta == 0 && bits && (uint) (uchar) *from >= (uint) (1 << bits)))
{
memset(ptr, 0xff, bytes_in_rec);
if (bits)
*ptr&= ((1 << bits) - 1); /* set first uchar */
if (table->in_use->really_abort_on_warning())
set_warning(MYSQL_ERROR::WARN_LEVEL_ERROR, ER_DATA_TOO_LONG, 1);
else
set_warning(MYSQL_ERROR::WARN_LEVEL_WARN, ER_WARN_DATA_OUT_OF_RANGE, 1);
return 1;
}
bzero(ptr, delta);
memcpy(ptr + delta, from, length);
return 0;
}
void Field_bit_as_char::sql_type(String &res) const
{
CHARSET_INFO *cs= res.charset();
ulong length= cs->cset->snprintf(cs, (char*) res.ptr(), res.alloced_length(),
"bit(%d)", (int) field_length);
res.length((uint) length);
}
/*****************************************************************************
Handling of field and Create_field
*****************************************************************************/
/**
Convert create_field::length from number of characters to number of bytes.
*/
void Create_field::create_length_to_internal_length(void)
{
switch (sql_type) {
case MYSQL_TYPE_TINY_BLOB:
case MYSQL_TYPE_MEDIUM_BLOB:
case MYSQL_TYPE_LONG_BLOB:
case MYSQL_TYPE_BLOB:
case MYSQL_TYPE_GEOMETRY:
case MYSQL_TYPE_VAR_STRING:
case MYSQL_TYPE_STRING:
case MYSQL_TYPE_VARCHAR:
length*= charset->mbmaxlen;
key_length= length;
pack_length= calc_pack_length(sql_type, length);
break;
case MYSQL_TYPE_ENUM:
case MYSQL_TYPE_SET:
/* Pack_length already calculated in sql_parse.cc */
length*= charset->mbmaxlen;
key_length= pack_length;
break;
case MYSQL_TYPE_BIT:
if (f_bit_as_char(pack_flag))
{
key_length= pack_length= ((length + 7) & ~7) / 8;
}
else
{
pack_length= length / 8;
/* We need one extra byte to store the bits we save among the null bits */
key_length= pack_length + test(length & 7);
}
break;
case MYSQL_TYPE_NEWDECIMAL:
key_length= pack_length=
my_decimal_get_binary_size(my_decimal_length_to_precision(length,
decimals,
flags &
UNSIGNED_FLAG),
decimals);
break;
default:
key_length= pack_length= calc_pack_length(sql_type, length);
break;
}
}
/**
Init for a tmp table field. To be extended if need be.
*/
void Create_field::init_for_tmp_table(enum_field_types sql_type_arg,
uint32 length_arg, uint32 decimals_arg,
bool maybe_null, bool is_unsigned)
{
field_name= "";
sql_type= sql_type_arg;
char_length= length= length_arg;;
unireg_check= Field::NONE;
interval= 0;
charset= &my_charset_bin;
geom_type= Field::GEOM_GEOMETRY;
pack_flag= (FIELDFLAG_NUMBER |
((decimals_arg & FIELDFLAG_MAX_DEC) << FIELDFLAG_DEC_SHIFT) |
(maybe_null ? FIELDFLAG_MAYBE_NULL : 0) |
(is_unsigned ? 0 : FIELDFLAG_DECIMAL));
vcol_info= 0;
stored_in_db= TRUE;
}
/**
Initialize field definition for create.
@param thd Thread handle
@param fld_name Field name
@param fld_type Field type
@param fld_length Field length
@param fld_decimals Decimal (if any)
@param fld_type_modifier Additional type information
@param fld_default_value Field default value (if any)
@param fld_on_update_value The value of ON UPDATE clause
@param fld_comment Field comment
@param fld_change Field change
@param fld_interval_list Interval list (if any)
@param fld_charset Field charset
@param fld_geom_type Field geometry type (if any)
@param fld_vcol_info Virtual column data
@retval
FALSE on success
@retval
TRUE on error
*/
bool Create_field::init(THD *thd, char *fld_name, enum_field_types fld_type,
char *fld_length, char *fld_decimals,
uint fld_type_modifier, Item *fld_default_value,
Item *fld_on_update_value, LEX_STRING *fld_comment,
char *fld_change, List<String> *fld_interval_list,
CHARSET_INFO *fld_charset, uint fld_geom_type,
Virtual_column_info *fld_vcol_info,
engine_option_value *create_opt)
{
uint sign_len, allowed_type_modifier= 0;
ulong max_field_charlength= MAX_FIELD_CHARLENGTH;
DBUG_ENTER("Create_field::init()");
field= 0;
field_name= fld_name;
def= fld_default_value;
flags= fld_type_modifier;
option_list= create_opt;
unireg_check= (fld_type_modifier & AUTO_INCREMENT_FLAG ?
Field::NEXT_NUMBER : Field::NONE);
decimals= fld_decimals ? (uint)atoi(fld_decimals) : 0;
if (decimals >= NOT_FIXED_DEC)
{
my_error(ER_TOO_BIG_SCALE, MYF(0), decimals, fld_name,
static_cast<ulong>(NOT_FIXED_DEC - 1));
DBUG_RETURN(TRUE);
}
sql_type= fld_type;
length= 0;
change= fld_change;
interval= 0;
pack_length= key_length= 0;
charset= fld_charset;
geom_type= (Field::geometry_type) fld_geom_type;
interval_list.empty();
comment= *fld_comment;
vcol_info= fld_vcol_info;
stored_in_db= TRUE;
/* Initialize data for a computed field */
if ((uchar)fld_type == (uchar)MYSQL_TYPE_VIRTUAL)
{
DBUG_ASSERT(vcol_info && vcol_info->expr_item);
stored_in_db= vcol_info->is_stored();
/*
Walk through the Item tree checking if all items are valid
to be part of the virtual column
*/
if (vcol_info->expr_item->walk(&Item::check_vcol_func_processor, 0, NULL))
{
my_error(ER_VIRTUAL_COLUMN_FUNCTION_IS_NOT_ALLOWED, MYF(0), field_name);
DBUG_RETURN(TRUE);
}
/*
Make a field created for the real type.
Note that regular and computed fields differ from each other only by
Field::vcol_info. It is is always NULL for a column that is not
computed.
*/
sql_type= fld_type= vcol_info->get_real_type();
}
/*
Set NO_DEFAULT_VALUE_FLAG if this field doesn't have a default value and
it is NOT NULL, not an AUTO_INCREMENT field and not a TIMESTAMP.
*/
if (!fld_default_value && !(fld_type_modifier & AUTO_INCREMENT_FLAG) &&
(fld_type_modifier & NOT_NULL_FLAG) && fld_type != MYSQL_TYPE_TIMESTAMP)
flags|= NO_DEFAULT_VALUE_FLAG;
if (fld_length != NULL)
{
errno= 0;
length= strtoul(fld_length, NULL, 10);
if ((errno != 0) || (length > MAX_FIELD_BLOBLENGTH))
{
my_error(ER_TOO_BIG_DISPLAYWIDTH, MYF(0), fld_name, MAX_FIELD_BLOBLENGTH);
DBUG_RETURN(TRUE);
}
if (length == 0)
fld_length= NULL; /* purecov: inspected */
}
sign_len= fld_type_modifier & UNSIGNED_FLAG ? 0 : 1;
switch (fld_type) {
case MYSQL_TYPE_TINY:
if (!fld_length)
length= MAX_TINYINT_WIDTH+sign_len;
allowed_type_modifier= AUTO_INCREMENT_FLAG;
break;
case MYSQL_TYPE_SHORT:
if (!fld_length)
length= MAX_SMALLINT_WIDTH+sign_len;
allowed_type_modifier= AUTO_INCREMENT_FLAG;
break;
case MYSQL_TYPE_INT24:
if (!fld_length)
length= MAX_MEDIUMINT_WIDTH+sign_len;
allowed_type_modifier= AUTO_INCREMENT_FLAG;
break;
case MYSQL_TYPE_LONG:
if (!fld_length)
length= MAX_INT_WIDTH+sign_len;
allowed_type_modifier= AUTO_INCREMENT_FLAG;
break;
case MYSQL_TYPE_LONGLONG:
if (!fld_length)
length= MAX_BIGINT_WIDTH;
allowed_type_modifier= AUTO_INCREMENT_FLAG;
break;
case MYSQL_TYPE_NULL:
break;
case MYSQL_TYPE_NEWDECIMAL:
my_decimal_trim(&length, &decimals);
if (length > DECIMAL_MAX_PRECISION)
{
my_error(ER_TOO_BIG_PRECISION, MYF(0), static_cast<int>(length),
fld_name, static_cast<ulong>(DECIMAL_MAX_PRECISION));
DBUG_RETURN(TRUE);
}
if (length < decimals)
{
my_error(ER_M_BIGGER_THAN_D, MYF(0), fld_name);
DBUG_RETURN(TRUE);
}
length=
my_decimal_precision_to_length(length, decimals,
fld_type_modifier & UNSIGNED_FLAG);
pack_length=
my_decimal_get_binary_size(length, decimals);
break;
case MYSQL_TYPE_VARCHAR:
/*
Long VARCHAR's are automaticly converted to blobs in mysql_prepare_table
if they don't have a default value
*/
max_field_charlength= MAX_FIELD_VARCHARLENGTH;
break;
case MYSQL_TYPE_STRING:
break;
case MYSQL_TYPE_BLOB:
case MYSQL_TYPE_TINY_BLOB:
case MYSQL_TYPE_LONG_BLOB:
case MYSQL_TYPE_MEDIUM_BLOB:
case MYSQL_TYPE_GEOMETRY:
if (fld_default_value)
{
/* Allow empty as default value. */
String str,*res;
res= fld_default_value->val_str(&str);
/*
A default other than '' is always an error, and any non-NULL
specified default is an error in strict mode.
*/
if (res->length() || (thd->variables.sql_mode &
(MODE_STRICT_TRANS_TABLES |
MODE_STRICT_ALL_TABLES)))
{
my_error(ER_BLOB_CANT_HAVE_DEFAULT, MYF(0),
fld_name); /* purecov: inspected */
DBUG_RETURN(TRUE);
}
else
{
/*
Otherwise a default of '' is just a warning.
*/
push_warning_printf(thd, MYSQL_ERROR::WARN_LEVEL_WARN,
ER_BLOB_CANT_HAVE_DEFAULT,
ER(ER_BLOB_CANT_HAVE_DEFAULT),
fld_name);
}
def= 0;
}
flags|= BLOB_FLAG;
break;
case MYSQL_TYPE_YEAR:
if (!fld_length || length != 2)
length= 4; /* Default length */
flags|= ZEROFILL_FLAG | UNSIGNED_FLAG;
break;
case MYSQL_TYPE_FLOAT:
/* change FLOAT(precision) to FLOAT or DOUBLE */
allowed_type_modifier= AUTO_INCREMENT_FLAG;
if (fld_length && !fld_decimals)
{
uint tmp_length= length;
if (tmp_length > PRECISION_FOR_DOUBLE)
{
my_error(ER_WRONG_FIELD_SPEC, MYF(0), fld_name);
DBUG_RETURN(TRUE);
}
else if (tmp_length > PRECISION_FOR_FLOAT)
{
sql_type= MYSQL_TYPE_DOUBLE;
length= MAX_DOUBLE_STR_LENGTH;
}
else
length= MAX_FLOAT_STR_LENGTH;
decimals= NOT_FIXED_DEC;
break;
}
if (!fld_length && !fld_decimals)
{
length= MAX_FLOAT_STR_LENGTH;
decimals= NOT_FIXED_DEC;
}
if (length < decimals &&
decimals != NOT_FIXED_DEC)
{
my_error(ER_M_BIGGER_THAN_D, MYF(0), fld_name);
DBUG_RETURN(TRUE);
}
break;
case MYSQL_TYPE_DOUBLE:
allowed_type_modifier= AUTO_INCREMENT_FLAG;
if (!fld_length && !fld_decimals)
{
length= DBL_DIG+7;
decimals= NOT_FIXED_DEC;
}
if (length < decimals &&
decimals != NOT_FIXED_DEC)
{
my_error(ER_M_BIGGER_THAN_D, MYF(0), fld_name);
DBUG_RETURN(TRUE);
}
break;
case MYSQL_TYPE_TIMESTAMP:
if (length > MAX_DATETIME_PRECISION)
{
my_error(ER_TOO_BIG_PRECISION, MYF(0), length, fld_name,
MAX_DATETIME_PRECISION);
DBUG_RETURN(TRUE);
}
length+= MAX_DATETIME_WIDTH + (length ? 1 : 0);
flags|= UNSIGNED_FLAG;
if (fld_default_value)
{
/* Grammar allows only NOW() value for ON UPDATE clause */
if (fld_default_value->type() == Item::FUNC_ITEM &&
((Item_func*)fld_default_value)->functype() == Item_func::NOW_FUNC)
{
unireg_check= (fld_on_update_value ? Field::TIMESTAMP_DNUN_FIELD:
Field::TIMESTAMP_DN_FIELD);
/*
We don't need default value any longer moreover it is dangerous.
Everything handled by unireg_check further.
*/
def= 0;
}
else
unireg_check= (fld_on_update_value ? Field::TIMESTAMP_UN_FIELD:
Field::NONE);
}
else
{
/*
If we have default TIMESTAMP NOT NULL column without explicit DEFAULT
or ON UPDATE values then for the sake of compatiblity we should treat
this column as having DEFAULT NOW() ON UPDATE NOW() (when we don't
have another TIMESTAMP column with auto-set option before this one)
or DEFAULT 0 (in other cases).
So here we are setting TIMESTAMP_OLD_FIELD only temporary, and will
replace this value by TIMESTAMP_DNUN_FIELD or NONE later when
information about all TIMESTAMP fields in table will be availiable.
If we have TIMESTAMP NULL column without explicit DEFAULT value
we treat it as having DEFAULT NULL attribute.
*/
unireg_check= (fld_on_update_value ? Field::TIMESTAMP_UN_FIELD :
(flags & NOT_NULL_FLAG ? Field::TIMESTAMP_OLD_FIELD :
Field::NONE));
}
break;
case MYSQL_TYPE_DATE:
/* We don't support creation of MYSQL_TYPE_DATE anymore */
sql_type= MYSQL_TYPE_NEWDATE;
/* fall trough */
case MYSQL_TYPE_NEWDATE:
length= MAX_DATE_WIDTH;
break;
case MYSQL_TYPE_TIME:
if (length > MAX_DATETIME_PRECISION)
{
my_error(ER_TOO_BIG_PRECISION, MYF(0), length, fld_name,
MAX_DATETIME_PRECISION);
DBUG_RETURN(TRUE);
}
length+= MIN_TIME_WIDTH + (length ? 1 : 0);
break;
case MYSQL_TYPE_DATETIME:
if (length > MAX_DATETIME_PRECISION)
{
my_error(ER_TOO_BIG_PRECISION, MYF(0), length, fld_name,
MAX_DATETIME_PRECISION);
DBUG_RETURN(TRUE);
}
length+= MAX_DATETIME_WIDTH + (length ? 1 : 0);
break;
case MYSQL_TYPE_SET:
{
pack_length= get_set_pack_length(fld_interval_list->elements);
List_iterator<String> it(*fld_interval_list);
String *tmp;
while ((tmp= it++))
interval_list.push_back(tmp);
/*
Set fake length to 1 to pass the below conditions.
Real length will be set in mysql_prepare_table()
when we know the character set of the column
*/
length= 1;
break;
}
case MYSQL_TYPE_ENUM:
{
/* Should be safe. */
pack_length= get_enum_pack_length(fld_interval_list->elements);
List_iterator<String> it(*fld_interval_list);
String *tmp;
while ((tmp= it++))
interval_list.push_back(tmp);
length= 1; /* See comment for MYSQL_TYPE_SET above. */
break;
}
case MYSQL_TYPE_VAR_STRING:
DBUG_ASSERT(0); /* Impossible. */
break;
case MYSQL_TYPE_BIT:
{
if (!fld_length)
length= 1;
if (length > MAX_BIT_FIELD_LENGTH)
{
my_error(ER_TOO_BIG_DISPLAYWIDTH, MYF(0), fld_name,
static_cast<ulong>(MAX_BIT_FIELD_LENGTH));
DBUG_RETURN(TRUE);
}
pack_length= (length + 7) / 8;
break;
}
case MYSQL_TYPE_DECIMAL:
DBUG_ASSERT(0); /* Was obsolete */
}
/* Remember the value of length */
char_length= length;
if (!(flags & BLOB_FLAG) &&
((length > max_field_charlength && fld_type != MYSQL_TYPE_SET &&
fld_type != MYSQL_TYPE_ENUM &&
(fld_type != MYSQL_TYPE_VARCHAR || fld_default_value)) ||
((length == 0) &&
fld_type != MYSQL_TYPE_STRING &&
fld_type != MYSQL_TYPE_VARCHAR && fld_type != MYSQL_TYPE_GEOMETRY)))
{
my_error((fld_type == MYSQL_TYPE_VAR_STRING ||
fld_type == MYSQL_TYPE_VARCHAR ||
fld_type == MYSQL_TYPE_STRING) ? ER_TOO_BIG_FIELDLENGTH :
ER_TOO_BIG_DISPLAYWIDTH,
MYF(0),
fld_name, max_field_charlength); /* purecov: inspected */
DBUG_RETURN(TRUE);
}
fld_type_modifier&= AUTO_INCREMENT_FLAG;
if ((~allowed_type_modifier) & fld_type_modifier)
{
my_error(ER_WRONG_FIELD_SPEC, MYF(0), fld_name);
DBUG_RETURN(TRUE);
}
switch (fld_type) {
case MYSQL_TYPE_DATE:
case MYSQL_TYPE_NEWDATE:
case MYSQL_TYPE_TIME:
case MYSQL_TYPE_DATETIME:
case MYSQL_TYPE_TIMESTAMP:
charset= &my_charset_bin;
flags|= BINCMP_FLAG;
default: break;
}
DBUG_RETURN(FALSE); /* success */
}
enum_field_types get_blob_type_from_length(ulong length)
{
enum_field_types type;
if (length < 256)
type= MYSQL_TYPE_TINY_BLOB;
else if (length < 65536)
type= MYSQL_TYPE_BLOB;
else if (length < 256L*256L*256L)
type= MYSQL_TYPE_MEDIUM_BLOB;
else
type= MYSQL_TYPE_LONG_BLOB;
return type;
}
/*
Make a field from the .frm file info
*/
uint32 calc_pack_length(enum_field_types type,uint32 length)
{
switch (type) {
case MYSQL_TYPE_VAR_STRING:
case MYSQL_TYPE_STRING:
case MYSQL_TYPE_DECIMAL: return (length);
case MYSQL_TYPE_VARCHAR: return (length + (length < 256 ? 1: 2));
case MYSQL_TYPE_YEAR:
case MYSQL_TYPE_TINY : return 1;
case MYSQL_TYPE_SHORT : return 2;
case MYSQL_TYPE_INT24:
case MYSQL_TYPE_NEWDATE: return 3;
case MYSQL_TYPE_TIME: return length > MIN_TIME_WIDTH
? time_hires_bytes[length - 1 - MIN_TIME_WIDTH]
: 3;
case MYSQL_TYPE_TIMESTAMP:
return length > MAX_DATETIME_WIDTH
? 4 + sec_part_bytes[length - 1 - MAX_DATETIME_WIDTH]
: 4;
case MYSQL_TYPE_DATE:
case MYSQL_TYPE_LONG : return 4;
case MYSQL_TYPE_FLOAT : return sizeof(float);
case MYSQL_TYPE_DOUBLE: return sizeof(double);
case MYSQL_TYPE_DATETIME:
return length > MAX_DATETIME_WIDTH
? datetime_hires_bytes[length - 1 - MAX_DATETIME_WIDTH]
: 8;
case MYSQL_TYPE_LONGLONG: return 8; /* Don't crash if no longlong */
case MYSQL_TYPE_NULL : return 0;
case MYSQL_TYPE_TINY_BLOB: return 1+portable_sizeof_char_ptr;
case MYSQL_TYPE_BLOB: return 2+portable_sizeof_char_ptr;
case MYSQL_TYPE_MEDIUM_BLOB: return 3+portable_sizeof_char_ptr;
case MYSQL_TYPE_LONG_BLOB: return 4+portable_sizeof_char_ptr;
case MYSQL_TYPE_GEOMETRY: return 4+portable_sizeof_char_ptr;
case MYSQL_TYPE_SET:
case MYSQL_TYPE_ENUM:
case MYSQL_TYPE_NEWDECIMAL:
abort(); return 0; // This shouldn't happen
case MYSQL_TYPE_BIT: return length / 8;
default:
return 0;
}
}
uint pack_length_to_packflag(uint type)
{
switch (type) {
case 1: return f_settype((uint) MYSQL_TYPE_TINY);
case 2: return f_settype((uint) MYSQL_TYPE_SHORT);
case 3: return f_settype((uint) MYSQL_TYPE_INT24);
case 4: return f_settype((uint) MYSQL_TYPE_LONG);
case 8: return f_settype((uint) MYSQL_TYPE_LONGLONG);
}
return 0; // This shouldn't happen
}
Field *make_field(TABLE_SHARE *share, uchar *ptr, uint32 field_length,
uchar *null_pos, uchar null_bit,
uint pack_flag,
enum_field_types field_type,
CHARSET_INFO *field_charset,
Field::geometry_type geom_type,
Field::utype unireg_check,
TYPELIB *interval,
const char *field_name)
{
uchar *UNINIT_VAR(bit_ptr);
uchar UNINIT_VAR(bit_offset);
if (field_type == MYSQL_TYPE_BIT && !f_bit_as_char(pack_flag))
{
bit_ptr= null_pos;
bit_offset= null_bit;
if (f_maybe_null(pack_flag)) // if null field
{
bit_ptr+= (null_bit == 7); // shift bit_ptr and bit_offset
bit_offset= (bit_offset + 1) & 7;
}
}
if (!f_maybe_null(pack_flag))
{
null_pos=0;
null_bit=0;
}
else
{
null_bit= ((uchar) 1) << null_bit;
}
switch (field_type) {
case MYSQL_TYPE_DATE:
case MYSQL_TYPE_NEWDATE:
case MYSQL_TYPE_TIME:
case MYSQL_TYPE_DATETIME:
case MYSQL_TYPE_TIMESTAMP:
field_charset= &my_charset_bin;
default: break;
}
if (f_is_alpha(pack_flag))
{
if (!f_is_packed(pack_flag))
{
if (field_type == MYSQL_TYPE_STRING ||
field_type == MYSQL_TYPE_DECIMAL || // 3.23 or 4.0 string
field_type == MYSQL_TYPE_VAR_STRING)
return new Field_string(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
field_charset);
if (field_type == MYSQL_TYPE_VARCHAR)
return new Field_varstring(ptr,field_length,
HA_VARCHAR_PACKLENGTH(field_length),
null_pos,null_bit,
unireg_check, field_name,
share,
field_charset);
return 0; // Error
}
uint pack_length=calc_pack_length((enum_field_types)
f_packtype(pack_flag),
field_length);
#ifdef HAVE_SPATIAL
if (f_is_geom(pack_flag))
return new Field_geom(ptr,null_pos,null_bit,
unireg_check, field_name, share,
pack_length, geom_type);
#endif
if (f_is_blob(pack_flag))
return new Field_blob(ptr,null_pos,null_bit,
unireg_check, field_name, share,
pack_length, field_charset);
if (interval)
{
if (f_is_enum(pack_flag))
return new Field_enum(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
pack_length, interval, field_charset);
else
return new Field_set(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
pack_length, interval, field_charset);
}
}
switch (field_type) {
case MYSQL_TYPE_DECIMAL:
return new Field_decimal(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_decimals(pack_flag),
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_NEWDECIMAL:
return new Field_new_decimal(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_decimals(pack_flag),
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_FLOAT:
return new Field_float(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_decimals(pack_flag),
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag)== 0);
case MYSQL_TYPE_DOUBLE:
return new Field_double(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_decimals(pack_flag),
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag)== 0);
case MYSQL_TYPE_TINY:
return new Field_tiny(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_SHORT:
return new Field_short(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_INT24:
return new Field_medium(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_LONG:
return new Field_long(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_LONGLONG:
return new Field_longlong(ptr,field_length,null_pos,null_bit,
unireg_check, field_name,
f_is_zerofill(pack_flag) != 0,
f_is_dec(pack_flag) == 0);
case MYSQL_TYPE_TIMESTAMP:
{
uint dec= field_length > MAX_DATETIME_WIDTH ?
field_length - MAX_DATETIME_WIDTH - 1: 0;
return new_Field_timestamp(ptr, null_pos, null_bit, unireg_check,
field_name, share, dec, field_charset);
}
case MYSQL_TYPE_YEAR:
return new Field_year(ptr,field_length,null_pos,null_bit,
unireg_check, field_name);
case MYSQL_TYPE_DATE:
return new Field_date(ptr,null_pos,null_bit,
unireg_check, field_name, field_charset);
case MYSQL_TYPE_NEWDATE:
return new Field_newdate(ptr,null_pos,null_bit,
unireg_check, field_name, field_charset);
case MYSQL_TYPE_TIME:
{
uint dec= field_length > MIN_TIME_WIDTH ?
field_length - MIN_TIME_WIDTH - 1: 0;
return new_Field_time(ptr, null_pos, null_bit, unireg_check,
field_name, dec, field_charset);
}
case MYSQL_TYPE_DATETIME:
{
uint dec= field_length > MAX_DATETIME_WIDTH ?
field_length - MAX_DATETIME_WIDTH - 1: 0;
return new_Field_datetime(ptr, null_pos, null_bit, unireg_check,
field_name, dec, field_charset);
}
case MYSQL_TYPE_NULL:
return new Field_null(ptr, field_length, unireg_check, field_name,
field_charset);
case MYSQL_TYPE_BIT:
return f_bit_as_char(pack_flag) ?
new Field_bit_as_char(ptr, field_length, null_pos, null_bit,
unireg_check, field_name) :
new Field_bit(ptr, field_length, null_pos, null_bit, bit_ptr,
bit_offset, unireg_check, field_name);
default: // Impossible (Wrong version)
break;
}
return 0;
}
/** Create a field suitable for create of table. */
Create_field::Create_field(Field *old_field,Field *orig_field)
{
field= old_field;
field_name=change=old_field->field_name;
length= old_field->field_length;
flags= old_field->flags;
unireg_check=old_field->unireg_check;
pack_length=old_field->pack_length();
key_length= old_field->key_length();
sql_type= old_field->real_type();
charset= old_field->charset(); // May be NULL ptr
comment= old_field->comment;
decimals= old_field->decimals();
vcol_info= old_field->vcol_info;
stored_in_db= old_field->stored_in_db;
option_list= old_field->option_list;
option_struct= old_field->option_struct;
/* Fix if the original table had 4 byte pointer blobs */
if (flags & BLOB_FLAG)
pack_length= (pack_length- old_field->table->s->blob_ptr_size +
portable_sizeof_char_ptr);
switch (sql_type) {
case MYSQL_TYPE_BLOB:
switch (pack_length - portable_sizeof_char_ptr) {
case 1: sql_type= MYSQL_TYPE_TINY_BLOB; break;
case 2: sql_type= MYSQL_TYPE_BLOB; break;
case 3: sql_type= MYSQL_TYPE_MEDIUM_BLOB; break;
default: sql_type= MYSQL_TYPE_LONG_BLOB; break;
}
length/= charset->mbmaxlen;
key_length/= charset->mbmaxlen;
break;
case MYSQL_TYPE_STRING:
/* Change CHAR -> VARCHAR if dynamic record length */
if (old_field->type() == MYSQL_TYPE_VAR_STRING)
sql_type= MYSQL_TYPE_VARCHAR;
/* fall through */
case MYSQL_TYPE_ENUM:
case MYSQL_TYPE_SET:
case MYSQL_TYPE_VARCHAR:
case MYSQL_TYPE_VAR_STRING:
/* This is corrected in create_length_to_internal_length */
length= (length+charset->mbmaxlen-1) / charset->mbmaxlen;
break;
#ifdef HAVE_SPATIAL
case MYSQL_TYPE_GEOMETRY:
geom_type= ((Field_geom*)old_field)->geom_type;
break;
#endif
default:
break;
}
if (flags & (ENUM_FLAG | SET_FLAG))
interval= ((Field_enum*) old_field)->typelib;
else
interval=0;
def=0;
char_length= length;
if (!(flags & (NO_DEFAULT_VALUE_FLAG | BLOB_FLAG)) &&
old_field->ptr && orig_field &&
(sql_type != MYSQL_TYPE_TIMESTAMP || /* set def only if */
old_field->table->timestamp_field != old_field || /* timestamp field */
unireg_check == Field::TIMESTAMP_UN_FIELD)) /* has default val */
{
char buff[MAX_FIELD_WIDTH];
String tmp(buff,sizeof(buff), charset);
my_ptrdiff_t diff;
/* Get the value from default_values */
diff= (my_ptrdiff_t) (orig_field->table->s->default_values-
orig_field->table->record[0]);
orig_field->move_field_offset(diff); // Points now at default_values
if (!orig_field->is_real_null())
{
char buff[MAX_FIELD_WIDTH], *pos;
String tmp(buff, sizeof(buff), charset), *res;
res= orig_field->val_str(&tmp);
pos= (char*) sql_strmake(res->ptr(), res->length());
def= new Item_string(pos, res->length(), charset);
}
orig_field->move_field_offset(-diff); // Back to record[0]
}
}
/**
Makes a clone of this object for ALTER/CREATE TABLE
@param mem_root MEM_ROOT where to clone the field
*/
Create_field *Create_field::clone(MEM_ROOT *mem_root) const
{
Create_field *res= new (mem_root) Create_field(*this);
return res;
}
/**
maximum possible display length for blob.
@return
length
*/
uint32 Field_blob::max_display_length()
{
switch (packlength)
{
case 1:
return 255 * field_charset->mbmaxlen;
case 2:
return 65535 * field_charset->mbmaxlen;
case 3:
return 16777215 * field_charset->mbmaxlen;
case 4:
return (uint32) 4294967295U;
default:
DBUG_ASSERT(0); // we should never go here
return 0;
}
}
/*****************************************************************************
Warning handling
*****************************************************************************/
/**
Produce warning or note about data saved into field.
@param level - level of message (Note/Warning/Error)
@param code - error code of message to be produced
@param cuted_increment - whenever we should increase cut fields count or not
@note
This function won't produce warning and increase cut fields counter
if count_cuted_fields == CHECK_FIELD_IGNORE for current thread.
if count_cuted_fields == CHECK_FIELD_IGNORE then we ignore notes.
This allows us to avoid notes in optimisation, like convert_constant_item().
@retval
1 if count_cuted_fields == CHECK_FIELD_IGNORE and error level is not NOTE
@retval
0 otherwise
*/
void
Field::set_warning(MYSQL_ERROR::enum_warning_level level, uint code,
int cuted_increment)
{
/*
If this field was created only for type conversion purposes it
will have table == NULL.
*/
THD *thd= table ? table->in_use : current_thd;
if (thd->count_cuted_fields)
{
thd->cuted_fields+= cuted_increment;
push_warning_printf(thd, level, code, ER(code), field_name,
thd->row_count);
}
}
/**
Produce warning or note about datetime string data saved into field.
@param level level of message (Note/Warning/Error)
@param code error code of message to be produced
@param str string value which we tried to save
@param ts_type type of datetime value (datetime/date/time)
@param cuted_increment whenever we should increase cut fields count or not
@note
This function will always produce some warning but won't increase cut
fields counter if count_cuted_fields ==FIELD_CHECK_IGNORE for current
thread.
See also bug#2336
*/
void Field::set_datetime_warning(MYSQL_ERROR::enum_warning_level level,
uint code, const Lazy_string *str,
timestamp_type ts_type, int cuted_increment)
{
THD *thd= table->in_use;
if (thd->really_abort_on_warning() && level >= MYSQL_ERROR::WARN_LEVEL_WARN)
make_truncated_value_warning(thd, level, str, ts_type, field_name);
else
set_warning(level, code, cuted_increment);
}
/*
@brief
Return possible keys for a field
@details
Return bit map of keys over this field which can be used by the range
optimizer. For a field of a generic table such keys are all keys that starts
from this field. For a field of a materialized derived table/view such keys
are all keys in which this field takes a part. This is less restrictive as
keys for a materialized derived table/view are generated on the fly from
present fields, thus the case when a field for the beginning of a key is
absent is impossible.
@return map of possible keys
*/
key_map Field::get_possible_keys()
{
DBUG_ASSERT(table->pos_in_table_list);
return (table->pos_in_table_list->is_materialized_derived() ?
part_of_key : key_start);
}
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