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|
/* -*- mode: c++; c-basic-offset: 2; indent-tabs-mode: nil; -*-
* vim:expandtab:shiftwidth=2:tabstop=2:smarttab:
*
* Copyright (C) 2008 Sun Microsystems, Inc.
*
* 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
*/
#include "config.h"
#include <drizzled/session.h>
#include <drizzled/table.h>
#include <drizzled/error.h>
#include <drizzled/join.h>
#include <drizzled/sql_base.h>
#include <drizzled/sql_select.h>
#include <drizzled/item/cmpfunc.h>
#include <drizzled/item/field.h>
#include <drizzled/item/outer_ref.h>
#include <drizzled/plugin/client.h>
#include <boost/dynamic_bitset.hpp>
namespace drizzled
{
/**
Store the pointer to this item field into a list if not already there.
The method is used by Item::walk to collect all unique Item_field objects
from a tree of Items into a set of items represented as a list.
Item_cond::walk() and Item_func::walk() stop the evaluation of the
processor function for its arguments once the processor returns
true.Therefore in order to force this method being called for all item
arguments in a condition the method must return false.
@param arg pointer to a List<Item_field>
@return
false to force the evaluation of collect_item_field_processor
for the subsequent items.
*/
bool Item_field::collect_item_field_processor(unsigned char *arg)
{
List<Item_field> *item_list= (List<Item_field>*) arg;
List_iterator<Item_field> item_list_it(*item_list);
Item_field *curr_item;
while ((curr_item= item_list_it++))
{
if (curr_item->eq(this, 1))
return(false); /* Already in the set. */
}
item_list->push_back(this);
return(false);
}
/**
Check if an Item_field references some field from a list of fields.
Check whether the Item_field represented by 'this' references any
of the fields in the keyparts passed via 'arg'. Used with the
method Item::walk() to test whether any keypart in a sequence of
keyparts is referenced in an expression.
@param arg Field being compared, arg must be of type Field
@retval
true if 'this' references the field 'arg'
@retval
false otherwise
*/
bool Item_field::find_item_in_field_list_processor(unsigned char *arg)
{
KeyPartInfo *first_non_group_part= *((KeyPartInfo **) arg);
KeyPartInfo *last_part= *(((KeyPartInfo **) arg) + 1);
KeyPartInfo *cur_part;
for (cur_part= first_non_group_part; cur_part != last_part; cur_part++)
{
if (field->eq(cur_part->field))
return true;
}
return false;
}
/*
Mark field in read_map
NOTES
This is used by filesort to register used fields in a a temporary
column read set or to register used fields in a view
*/
bool Item_field::register_field_in_read_map(unsigned char *arg)
{
Table *table= (Table *) arg;
if (field->getTable() == table || !table)
field->getTable()->setReadSet(field->position());
return 0;
}
Item_field::Item_field(Field *f)
:Item_ident(0, NULL, f->getTable()->getAlias(), f->field_name),
item_equal(0), no_const_subst(0),
have_privileges(0), any_privileges(0)
{
set_field(f);
/*
field_name and table_name should not point to garbage
if this item is to be reused
*/
orig_table_name= orig_field_name= "";
}
/**
Constructor used inside setup_wild().
Ensures that field, table, and database names will live as long as
Item_field (this is important in prepared statements).
*/
Item_field::Item_field(Session *,
Name_resolution_context *context_arg,
Field *f) :
Item_ident(context_arg,
f->getTable()->getShare()->getSchemaName(),
f->getTable()->getAlias(),
f->field_name),
item_equal(0),
no_const_subst(0),
have_privileges(0),
any_privileges(0)
{
set_field(f);
}
Item_field::Item_field(Name_resolution_context *context_arg,
const char *db_arg,const char *table_name_arg,
const char *field_name_arg) :
Item_ident(context_arg, db_arg,table_name_arg,field_name_arg),
field(0),
result_field(0),
item_equal(0),
no_const_subst(0),
have_privileges(0),
any_privileges(0)
{
Select_Lex *select= current_session->lex->current_select;
collation.set(DERIVATION_IMPLICIT);
if (select && select->parsing_place != IN_HAVING)
select->select_n_where_fields++;
}
/**
Constructor need to process subselect with temporary tables (see Item)
*/
Item_field::Item_field(Session *session, Item_field *item) :
Item_ident(session, item),
field(item->field),
result_field(item->result_field),
item_equal(item->item_equal),
no_const_subst(item->no_const_subst),
have_privileges(item->have_privileges),
any_privileges(item->any_privileges)
{
collation.set(DERIVATION_IMPLICIT);
}
void Item_field::set_field(Field *field_par)
{
field=result_field=field_par; // for easy coding with fields
maybe_null=field->maybe_null();
decimals= field->decimals();
max_length= field_par->max_display_length();
table_name= field_par->getTable()->getAlias();
field_name= field_par->field_name;
db_name= field_par->getTable()->getShare()->getSchemaName();
alias_name_used= field_par->getTable()->alias_name_used;
unsigned_flag=test(field_par->flags & UNSIGNED_FLAG);
collation.set(field_par->charset(), field_par->derivation());
fixed= 1;
}
/**
Reset this item to point to a field from the new temporary table.
This is used when we create a new temporary table for each execution
of prepared statement.
*/
void Item_field::reset_field(Field *f)
{
set_field(f);
/* 'name' is pointing at field->field_name of old field */
name= (char*) f->field_name;
}
/* ARGSUSED */
String *Item_field::val_str(String *str)
{
assert(fixed == 1);
if ((null_value=field->is_null()))
return 0;
str->set_charset(str_value.charset());
return field->val_str(str,&str_value);
}
double Item_field::val_real()
{
assert(fixed == 1);
if ((null_value=field->is_null()))
return 0.0;
return field->val_real();
}
int64_t Item_field::val_int()
{
assert(fixed == 1);
if ((null_value=field->is_null()))
return 0;
return field->val_int();
}
type::Decimal *Item_field::val_decimal(type::Decimal *decimal_value)
{
if ((null_value= field->is_null()))
return 0;
return field->val_decimal(decimal_value);
}
String *Item_field::str_result(String *str)
{
if ((null_value=result_field->is_null()))
return 0;
str->set_charset(str_value.charset());
return result_field->val_str(str,&str_value);
}
bool Item_field::get_date(type::Time *ltime,uint32_t fuzzydate)
{
if ((null_value=field->is_null()) || field->get_date(ltime,fuzzydate))
{
memset(ltime, 0, sizeof(*ltime));
return 1;
}
return 0;
}
bool Item_field::get_date_result(type::Time *ltime,uint32_t fuzzydate)
{
if ((null_value=result_field->is_null()) ||
result_field->get_date(ltime,fuzzydate))
{
memset(ltime, 0, sizeof(*ltime));
return 1;
}
return 0;
}
bool Item_field::get_time(type::Time *ltime)
{
if ((null_value=field->is_null()) || field->get_time(ltime))
{
memset(ltime, 0, sizeof(*ltime));
return 1;
}
return 0;
}
double Item_field::val_result()
{
if ((null_value=result_field->is_null()))
return 0.0;
return result_field->val_real();
}
int64_t Item_field::val_int_result()
{
if ((null_value=result_field->is_null()))
return 0;
return result_field->val_int();
}
type::Decimal *Item_field::val_decimal_result(type::Decimal *decimal_value)
{
if ((null_value= result_field->is_null()))
return 0;
return result_field->val_decimal(decimal_value);
}
bool Item_field::val_bool_result()
{
if ((null_value= result_field->is_null()))
{
return false;
}
switch (result_field->result_type()) {
case INT_RESULT:
return result_field->val_int() != 0;
case DECIMAL_RESULT:
{
type::Decimal decimal_value;
type::Decimal *val= result_field->val_decimal(&decimal_value);
if (val)
return not val->is_zero();
return 0;
}
case REAL_RESULT:
case STRING_RESULT:
return result_field->val_real() != 0.0;
case ROW_RESULT:
assert(0);
return 0; // Shut up compiler
}
assert(0);
return 0; // Shut up compiler
}
bool Item_field::eq(const Item *item, bool) const
{
const Item *item_ptr= item->real_item();
if (item_ptr->type() != FIELD_ITEM)
return 0;
const Item_field *item_field= static_cast<const Item_field *>(item_ptr);
if (item_field->field && field)
return item_field->field == field;
/*
We may come here when we are trying to find a function in a GROUP BY
clause from the select list.
In this case the '100 % correct' way to do this would be to first
run fix_fields() on the GROUP BY item and then retry this function, but
I think it's better to relax the checking a bit as we will in
most cases do the correct thing by just checking the field name.
(In cases where we would choose wrong we would have to generate a
ER_NON_UNIQ_ERROR).
*/
return (not my_strcasecmp(system_charset_info, item_field->name, field_name) &&
(not item_field->table_name || not table_name ||
(not my_strcasecmp(table_alias_charset, item_field->table_name, table_name) &&
(not item_field->db_name || not db_name ||
(item_field->db_name && not my_strcasecmp(system_charset_info, item_field->db_name, db_name))))));
}
table_map Item_field::used_tables() const
{
if (field->getTable()->const_table)
{
return 0; // const item
}
return (depended_from ? OUTER_REF_TABLE_BIT : field->getTable()->map);
}
enum Item_result Item_field::result_type () const
{
return field->result_type();
}
Item_result Item_field::cast_to_int_type() const
{
return field->cast_to_int_type();
}
enum_field_types Item_field::field_type() const
{
return field->type();
}
void Item_field::fix_after_pullout(Select_Lex *new_parent, Item **)
{
if (new_parent == depended_from)
depended_from= NULL;
Name_resolution_context *ctx= new Name_resolution_context();
ctx->outer_context= NULL; // We don't build a complete name resolver
ctx->select_lex= new_parent;
ctx->first_name_resolution_table= context->first_name_resolution_table;
ctx->last_name_resolution_table= context->last_name_resolution_table;
this->context=ctx;
}
bool Item_field::is_null()
{
return field->is_null();
}
Item *Item_field::get_tmp_table_item(Session *session)
{
Item_field *new_item= new Item_field(session, this);
if (new_item)
new_item->field= new_item->result_field;
return new_item;
}
int64_t Item_field::val_int_endpoint(bool, bool *)
{
int64_t res= val_int();
return null_value? INT64_MIN : res;
}
/**
Resolve the name of an outer select column reference.
The method resolves the column reference represented by 'this' as a column
present in outer selects that contain current select.
In prepared statements, because of cache, find_field_in_tables()
can resolve fields even if they don't belong to current context.
In this case this method only finds appropriate context and marks
current select as dependent. The found reference of field should be
provided in 'from_field'.
@param[in] session current thread
@param[in,out] from_field found field reference or (Field*)not_found_field
@param[in,out] reference view column if this item was resolved to a
view column
@note
This is the inner loop of Item_field::fix_fields:
@code
for each outer query Q_k beginning from the inner-most one
{
search for a column or derived column named col_ref_i
[in table T_j] in the FROM clause of Q_k;
if such a column is not found
Search for a column or derived column named col_ref_i
[in table T_j] in the SELECT and GROUP clauses of Q_k.
}
@endcode
@retval
1 column succefully resolved and fix_fields() should continue.
@retval
0 column fully fixed and fix_fields() should return false
@retval
-1 error occured
*/
int
Item_field::fix_outer_field(Session *session, Field **from_field, Item **reference)
{
enum_parsing_place place= NO_MATTER;
bool field_found= (*from_field != not_found_field);
bool upward_lookup= false;
/*
If there are outer contexts (outer selects, but current select is
not derived table or view) try to resolve this reference in the
outer contexts.
We treat each subselect as a separate namespace, so that different
subselects may contain columns with the same names. The subselects
are searched starting from the innermost.
*/
Name_resolution_context *last_checked_context= context;
Item **ref= (Item **) not_found_item;
Select_Lex *current_sel= (Select_Lex *) session->lex->current_select;
Name_resolution_context *outer_context= 0;
Select_Lex *select= 0;
/* Currently derived tables cannot be correlated */
if (current_sel->master_unit()->first_select()->linkage !=
DERIVED_TABLE_TYPE)
outer_context= context->outer_context;
for (;
outer_context;
outer_context= outer_context->outer_context)
{
select= outer_context->select_lex;
Item_subselect *prev_subselect_item=
last_checked_context->select_lex->master_unit()->item;
last_checked_context= outer_context;
upward_lookup= true;
place= prev_subselect_item->parsing_place;
/*
If outer_field is set, field was already found by first call
to find_field_in_tables(). Only need to find appropriate context.
*/
if (field_found && outer_context->select_lex !=
cached_table->select_lex)
continue;
/*
In case of a view, find_field_in_tables() writes the pointer to
the found view field into '*reference', in other words, it
substitutes this Item_field with the found expression.
*/
if (field_found || (*from_field= find_field_in_tables(session, this,
outer_context->
first_name_resolution_table,
outer_context->
last_name_resolution_table,
reference,
IGNORE_EXCEPT_NON_UNIQUE,
true)) !=
not_found_field)
{
if (*from_field)
{
if (*from_field != view_ref_found)
{
prev_subselect_item->used_tables_cache|= (*from_field)->getTable()->map;
prev_subselect_item->const_item_cache= false;
set_field(*from_field);
if (!last_checked_context->select_lex->having_fix_field &&
select->group_list.elements &&
(place == SELECT_LIST || place == IN_HAVING))
{
Item_outer_ref *rf;
/*
If an outer field is resolved in a grouping select then it
is replaced for an Item_outer_ref object. Otherwise an
Item_field object is used.
The new Item_outer_ref object is saved in the inner_refs_list of
the outer select. Here it is only created. It can be fixed only
after the original field has been fixed and this is done in the
fix_inner_refs() function.
*/
;
if (!(rf= new Item_outer_ref(context, this)))
return -1;
session->change_item_tree(reference, rf);
select->inner_refs_list.push_back(rf);
rf->in_sum_func= session->lex->in_sum_func;
}
/*
A reference is resolved to a nest level that's outer or the same as
the nest level of the enclosing set function : adjust the value of
max_arg_level for the function if it's needed.
*/
if (session->lex->in_sum_func &&
session->lex->in_sum_func->nest_level >= select->nest_level)
{
Item::Type ref_type= (*reference)->type();
set_if_bigger(session->lex->in_sum_func->max_arg_level,
select->nest_level);
set_field(*from_field);
fixed= 1;
mark_as_dependent(session, last_checked_context->select_lex,
context->select_lex, this,
((ref_type == REF_ITEM ||
ref_type == FIELD_ITEM) ?
(Item_ident*) (*reference) : 0));
return 0;
}
}
else
{
Item::Type ref_type= (*reference)->type();
prev_subselect_item->used_tables_cache|=
(*reference)->used_tables();
prev_subselect_item->const_item_cache&=
(*reference)->const_item();
mark_as_dependent(session, last_checked_context->select_lex,
context->select_lex, this,
((ref_type == REF_ITEM || ref_type == FIELD_ITEM) ?
(Item_ident*) (*reference) :
0));
/*
A reference to a view field had been found and we
substituted it instead of this Item (find_field_in_tables
does it by assigning the new value to *reference), so now
we can return from this function.
*/
return 0;
}
}
break;
}
/* Search in SELECT and GROUP lists of the outer select. */
if (place != IN_WHERE && place != IN_ON)
{
if (!(ref= resolve_ref_in_select_and_group(session, this, select)))
return -1; /* Some error occurred (e.g. ambiguous names). */
if (ref != not_found_item)
{
assert(*ref && (*ref)->fixed);
prev_subselect_item->used_tables_cache|= (*ref)->used_tables();
prev_subselect_item->const_item_cache&= (*ref)->const_item();
break;
}
}
/*
Reference is not found in this select => this subquery depend on
outer select (or we just trying to find wrong identifier, in this
case it does not matter which used tables bits we set)
*/
prev_subselect_item->used_tables_cache|= OUTER_REF_TABLE_BIT;
prev_subselect_item->const_item_cache= false;
}
assert(ref != 0);
if (!*from_field)
return -1;
if (ref == not_found_item && *from_field == not_found_field)
{
if (upward_lookup)
{
// We can't say exactly what absent table or field
my_error(ER_BAD_FIELD_ERROR, MYF(0), full_name(), session->where);
}
else
{
/* Call find_field_in_tables only to report the error */
find_field_in_tables(session, this,
context->first_name_resolution_table,
context->last_name_resolution_table,
reference, REPORT_ALL_ERRORS, true);
}
return -1;
}
else if (ref != not_found_item)
{
Item *save;
Item_ref *rf;
/* Should have been checked in resolve_ref_in_select_and_group(). */
assert(*ref && (*ref)->fixed);
/*
Here, a subset of actions performed by Item_ref::set_properties
is not enough. So we pass ptr to NULL into Item_[direct]_ref
constructor, so no initialization is performed, and call
fix_fields() below.
*/
save= *ref;
*ref= NULL; // Don't call set_properties()
rf= (place == IN_HAVING ?
new Item_ref(context, ref, (char*) table_name,
(char*) field_name, alias_name_used) :
(!select->group_list.elements ?
new Item_direct_ref(context, ref, (char*) table_name,
(char*) field_name, alias_name_used) :
new Item_outer_ref(context, ref, (char*) table_name,
(char*) field_name, alias_name_used)));
*ref= save;
if (!rf)
return -1;
if (place != IN_HAVING && select->group_list.elements)
{
outer_context->select_lex->inner_refs_list.push_back((Item_outer_ref*)rf);
((Item_outer_ref*)rf)->in_sum_func= session->lex->in_sum_func;
}
session->change_item_tree(reference, rf);
/*
rf is Item_ref => never substitute other items (in this case)
during fix_fields() => we can use rf after fix_fields()
*/
assert(!rf->fixed); // Assured by Item_ref()
if (rf->fix_fields(session, reference) || rf->check_cols(1))
return -1;
mark_as_dependent(session, last_checked_context->select_lex,
context->select_lex, this,
rf);
return 0;
}
else
{
mark_as_dependent(session, last_checked_context->select_lex,
context->select_lex,
this, (Item_ident*)*reference);
if (last_checked_context->select_lex->having_fix_field)
{
Item_ref *rf;
rf= new Item_ref(context,
(cached_table->getSchemaName()[0] ? cached_table->getSchemaName() : 0),
(char*) cached_table->alias, (char*) field_name);
if (!rf)
return -1;
session->change_item_tree(reference, rf);
/*
rf is Item_ref => never substitute other items (in this case)
during fix_fields() => we can use rf after fix_fields()
*/
assert(!rf->fixed); // Assured by Item_ref()
if (rf->fix_fields(session, reference) || rf->check_cols(1))
return -1;
return 0;
}
}
return 1;
}
/**
Resolve the name of a column reference.
The method resolves the column reference represented by 'this' as a column
present in one of: FROM clause, SELECT clause, GROUP BY clause of a query
Q, or in outer queries that contain Q.
The name resolution algorithm used is (where [T_j] is an optional table
name that qualifies the column name):
@code
resolve_column_reference([T_j].col_ref_i)
{
search for a column or derived column named col_ref_i
[in table T_j] in the FROM clause of Q;
if such a column is NOT found AND // Lookup in outer queries.
there are outer queries
{
for each outer query Q_k beginning from the inner-most one
{
search for a column or derived column named col_ref_i
[in table T_j] in the FROM clause of Q_k;
if such a column is not found
Search for a column or derived column named col_ref_i
[in table T_j] in the SELECT and GROUP clauses of Q_k.
}
}
}
@endcode
Notice that compared to Item_ref::fix_fields, here we first search the FROM
clause, and then we search the SELECT and GROUP BY clauses.
@param[in] session current thread
@param[in,out] reference view column if this item was resolved to a
view column
@retval
true if error
@retval
false on success
*/
bool Item_field::fix_fields(Session *session, Item **reference)
{
assert(fixed == 0);
Field *from_field= (Field *)not_found_field;
bool outer_fixed= false;
if (!field) // If field is not checked
{
/*
In case of view, find_field_in_tables() write pointer to view field
expression to 'reference', i.e. it substitute that expression instead
of this Item_field
*/
if ((from_field= find_field_in_tables(session, this,
context->first_name_resolution_table,
context->last_name_resolution_table,
reference,
session->lex->use_only_table_context ?
REPORT_ALL_ERRORS :
IGNORE_EXCEPT_NON_UNIQUE, true)) ==
not_found_field)
{
int ret;
/* Look up in current select's item_list to find aliased fields */
if (session->lex->current_select->is_item_list_lookup)
{
uint32_t counter;
enum_resolution_type resolution;
Item** res= find_item_in_list(session,
this, session->lex->current_select->item_list,
&counter, REPORT_EXCEPT_NOT_FOUND,
&resolution);
if (!res)
return 1;
if (resolution == RESOLVED_AGAINST_ALIAS)
alias_name_used= true;
if (res != (Item **)not_found_item)
{
if ((*res)->type() == Item::FIELD_ITEM)
{
/*
It's an Item_field referencing another Item_field in the select
list.
Use the field from the Item_field in the select list and leave
the Item_field instance in place.
*/
Field *new_field= (*((Item_field**)res))->field;
if (new_field == NULL)
{
/* The column to which we link isn't valid. */
my_error(ER_BAD_FIELD_ERROR, MYF(0), (*res)->name,
current_session->where);
return(1);
}
set_field(new_field);
return 0;
}
else
{
/*
It's not an Item_field in the select list so we must make a new
Item_ref to point to the Item in the select list and replace the
Item_field created by the parser with the new Item_ref.
*/
Item_ref *rf= new Item_ref(context, db_name,table_name,field_name);
if (!rf)
return 1;
session->change_item_tree(reference, rf);
/*
Because Item_ref never substitutes itself with other items
in Item_ref::fix_fields(), we can safely use the original
pointer to it even after fix_fields()
*/
return rf->fix_fields(session, reference) || rf->check_cols(1);
}
}
}
if ((ret= fix_outer_field(session, &from_field, reference)) < 0)
goto error;
outer_fixed= true;
if (!ret)
goto mark_non_agg_field;
}
else if (!from_field)
goto error;
if (!outer_fixed && cached_table && cached_table->select_lex &&
context->select_lex &&
cached_table->select_lex != context->select_lex)
{
int ret;
if ((ret= fix_outer_field(session, &from_field, reference)) < 0)
goto error;
outer_fixed= 1;
if (!ret)
goto mark_non_agg_field;
}
/*
if it is not expression from merged VIEW we will set this field.
We can leave expression substituted from view for next PS/SP rexecution
(i.e. do not register this substitution for reverting on cleanup()
(register_item_tree_changing())), because this subtree will be
fix_field'ed during setup_tables()->setup_underlying() (i.e. before
all other expressions of query, and references on tables which do
not present in query will not make problems.
Also we suppose that view can't be changed during PS/SP life.
*/
if (from_field == view_ref_found)
return false;
set_field(from_field);
if (session->lex->in_sum_func &&
session->lex->in_sum_func->nest_level ==
session->lex->current_select->nest_level)
{
set_if_bigger(session->lex->in_sum_func->max_arg_level,
session->lex->current_select->nest_level);
}
}
else if (session->mark_used_columns != MARK_COLUMNS_NONE)
{
Table *table= field->getTable();
boost::dynamic_bitset<> *current_bitmap, *other_bitmap;
if (session->mark_used_columns == MARK_COLUMNS_READ)
{
current_bitmap= table->read_set;
other_bitmap= table->write_set;
}
else
{
current_bitmap= table->write_set;
other_bitmap= table->read_set;
}
//if (! current_bitmap->testAndSet(field->position()))
if (! current_bitmap->test(field->position()))
{
if (! other_bitmap->test(field->position()))
{
/* First usage of column */
table->used_fields++; // Used to optimize loops
table->covering_keys&= field->part_of_key;
}
}
}
fixed= 1;
mark_non_agg_field:
return false;
error:
context->process_error(session);
return true;
}
Item *Item_field::safe_charset_converter(const CHARSET_INFO * const tocs)
{
no_const_subst= 1;
return Item::safe_charset_converter(tocs);
}
void Item_field::cleanup()
{
Item_ident::cleanup();
/*
Even if this object was created by direct link to field in setup_wild()
it will be linked correctly next time by name of field and table alias.
I.e. we can drop 'field'.
*/
field= result_field= 0;
null_value= false;
return;
}
bool Item_field::result_as_int64_t()
{
return field->can_be_compared_as_int64_t();
}
/**
Find a field among specified multiple equalities.
The function first searches the field among multiple equalities
of the current level (in the cond_equal->current_level list).
If it fails, it continues searching in upper levels accessed
through a pointer cond_equal->upper_levels.
The search terminates as soon as a multiple equality containing
the field is found.
@param cond_equal reference to list of multiple equalities where
the field (this object) is to be looked for
@return
- First Item_equal containing the field, if success
- 0, otherwise
*/
Item_equal *Item_field::find_item_equal(COND_EQUAL *cond_equal)
{
Item_equal *item= 0;
while (cond_equal)
{
List_iterator_fast<Item_equal> li(cond_equal->current_level);
while ((item= li++))
{
if (item->contains(field))
return item;
}
/*
The field is not found in any of the multiple equalities
of the current level. Look for it in upper levels
*/
cond_equal= cond_equal->upper_levels;
}
return 0;
}
/**
Check whether a field can be substituted by an equal item.
The function checks whether a substitution of the field
occurrence for an equal item is valid.
@param arg *arg != NULL <-> the field is in the context where
substitution for an equal item is valid
@note
The following statement is not always true:
@n
x=y => F(x)=F(x/y).
@n
This means substitution of an item for an equal item not always
yields an equavalent condition. Here's an example:
@code
'a'='a '
(LENGTH('a')=1) != (LENGTH('a ')=2)
@endcode
Such a substitution is surely valid if either the substituted
field is not of a STRING type or if it is an argument of
a comparison predicate.
@retval
true substitution is valid
@retval
false otherwise
*/
bool Item_field::subst_argument_checker(unsigned char **arg)
{
return (result_type() != STRING_RESULT) || (*arg);
}
/**
Set a pointer to the multiple equality the field reference belongs to
(if any).
The function looks for a multiple equality containing the field item
among those referenced by arg.
In the case such equality exists the function does the following.
If the found multiple equality contains a constant, then the field
reference is substituted for this constant, otherwise it sets a pointer
to the multiple equality in the field item.
@param arg reference to list of multiple equalities where
the field (this object) is to be looked for
@note
This function is supposed to be called as a callback parameter in calls
of the compile method.
@return
- pointer to the replacing constant item, if the field item was substituted
- pointer to the field item, otherwise.
*/
Item *Item_field::equal_fields_propagator(unsigned char *arg)
{
if (no_const_subst)
return this;
item_equal= find_item_equal((COND_EQUAL *) arg);
Item *item= 0;
if (item_equal)
item= item_equal->get_const();
/*
Disable const propagation for items used in different comparison contexts.
This must be done because, for example, Item_hex_string->val_int() is not
the same as (Item_hex_string->val_str() in BINARY column)->val_int().
We cannot simply disable the replacement in a particular context (
e.g. <bin_col> = <int_col> AND <bin_col> = <hex_string>) since
Items don't know the context they are in and there are functions like
IF (<hex_string>, 'yes', 'no').
The same problem occurs when comparing a DATE/TIME field with a
DATE/TIME represented as an int and as a string.
*/
if (!item ||
(cmp_context != (Item_result)-1 && item->cmp_context != cmp_context))
item= this;
return item;
}
/**
Mark the item to not be part of substitution if it's not a binary item.
See comments in Arg_comparator::set_compare_func() for details.
*/
bool Item_field::set_no_const_sub(unsigned char *)
{
if (field->charset() != &my_charset_bin)
no_const_subst=1;
return false;
}
/**
Replace an Item_field for an equal Item_field that evaluated earlier
(if any).
The function returns a pointer to an item that is taken from
the very beginning of the item_equal list which the Item_field
object refers to (belongs to) unless item_equal contains a constant
item. In this case the function returns this constant item,
(if the substitution does not require conversion).
If the Item_field object does not refer any Item_equal object
'this' is returned .
@param arg a dummy parameter, is not used here
@note
This function is supposed to be called as a callback parameter in calls
of the thransformer method.
@return
- pointer to a replacement Item_field if there is a better equal item or
a pointer to a constant equal item;
- this - otherwise.
*/
Item *Item_field::replace_equal_field(unsigned char *)
{
if (item_equal)
{
Item *const_item_ptr= item_equal->get_const();
if (const_item_ptr)
{
if (cmp_context != (Item_result)-1 &&
const_item_ptr->cmp_context != cmp_context)
return this;
return const_item_ptr;
}
Item_field *subst= item_equal->get_first();
if (subst && !field->eq(subst->field))
return subst;
}
return this;
}
uint32_t Item_field::max_disp_length()
{
return field->max_display_length();
}
/* ARGSUSED */
void Item_field::make_field(SendField *tmp_field)
{
field->make_field(tmp_field);
assert(tmp_field->table_name != 0);
if (name)
tmp_field->col_name=name; // Use user supplied name
if (table_name)
tmp_field->table_name= table_name;
if (db_name)
tmp_field->db_name= db_name;
}
/**
Set a field's value from a item.
*/
void Item_field::save_org_in_field(Field *to)
{
if (field->is_null())
{
null_value=1;
set_field_to_null_with_conversions(to, 1);
}
else
{
to->set_notnull();
field_conv(to,field);
null_value=0;
}
}
int Item_field::save_in_field(Field *to, bool no_conversions)
{
int res;
if (result_field->is_null())
{
null_value=1;
res= set_field_to_null_with_conversions(to, no_conversions);
}
else
{
to->set_notnull();
res= field_conv(to,result_field);
null_value=0;
}
return(res);
}
bool Item_field::send(plugin::Client *client, String *)
{
return client->store(result_field);
}
void Item_field::update_null_value()
{
/*
need to set no_errors to prevent warnings about type conversion
popping up.
*/
Session *session= field->getTable()->in_use;
int no_errors;
no_errors= session->no_errors;
session->no_errors= 1;
Item::update_null_value();
session->no_errors= no_errors;
}
/*
Add the field to the select list and substitute it for the reference to
the field.
SYNOPSIS
Item_field::update_value_transformer()
select_arg current select
DESCRIPTION
If the field doesn't belong to the table being inserted into then it is
added to the select list, pointer to it is stored in the ref_pointer_array
of the select and the field itself is substituted for the Item_ref object.
This is done in order to get correct values from update fields that
belongs to the SELECT part in the INSERT .. SELECT .. ON DUPLICATE KEY
UPDATE statement.
RETURN
0 if error occured
ref if all conditions are met
this field otherwise
*/
Item *Item_field::update_value_transformer(unsigned char *select_arg)
{
Select_Lex *select= (Select_Lex*)select_arg;
assert(fixed);
if (field->getTable() != select->context.table_list->table)
{
List<Item> *all_fields= &select->join->all_fields;
Item **ref_pointer_array= select->ref_pointer_array;
int el= all_fields->elements;
Item_ref *ref;
ref_pointer_array[el]= (Item*)this;
all_fields->push_front((Item*)this);
ref= new Item_ref(&select->context, ref_pointer_array + el,
table_name, field_name);
return ref;
}
return this;
}
void Item_field::print(String *str, enum_query_type query_type)
{
if (field && field->getTable()->const_table)
{
char buff[MAX_FIELD_WIDTH];
String tmp(buff,sizeof(buff),str->charset());
field->val_str_internal(&tmp);
if (field->is_null()) {
str->append("NULL");
}
else {
str->append('\'');
str->append(tmp);
str->append('\'');
}
return;
}
Item_ident::print(str, query_type);
}
} /* namespace drizzled */
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