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#include <drizzled/server_includes.h>
#include <drizzled/field_iterator.h>
const char *Field_iterator_table::name()
{
return (*ptr)->field_name;
}
void Field_iterator_table::set(TableList *table)
{
ptr= table->table->field;
}
void Field_iterator_table::set_table(Table *table)
{
ptr= table->field;
}
Item *Field_iterator_table::create_item(Session *session)
{
SELECT_LEX *select= session->lex->current_select;
Item_field *item= new Item_field(session, &select->context, *ptr);
#ifdef DEAD_CODE
if (item && session->variables.sql_mode & MODE_ONLY_FULL_GROUP_BY &&
!session->lex->in_sum_func && select->cur_pos_in_select_list != UNDEF_POS)
{
select->non_agg_fields.push_back(item);
item->marker= select->cur_pos_in_select_list;
}
#endif
return item;
}
void Field_iterator_natural_join::set(TableList *table_ref)
{
assert(table_ref->join_columns);
column_ref_it.init(*(table_ref->join_columns));
cur_column_ref= column_ref_it++;
}
void Field_iterator_natural_join::next()
{
cur_column_ref= column_ref_it++;
assert(!cur_column_ref || ! cur_column_ref->table_field ||
cur_column_ref->table_ref->table ==
cur_column_ref->table_field->table);
}
void Field_iterator_table_ref::set_field_iterator()
{
/*
If the table reference we are iterating over is a natural join, or it is
an operand of a natural join, and TableList::join_columns contains all
the columns of the join operand, then we pick the columns from
TableList::join_columns, instead of the orginial container of the
columns of the join operator.
*/
if (table_ref->is_join_columns_complete)
{
/* Necesary, but insufficient conditions. */
assert(table_ref->is_natural_join ||
table_ref->nested_join ||
((table_ref->join_columns && /* This is a merge view. */ (table_ref->field_translation && table_ref->join_columns->elements == (ulong)(table_ref->field_translation_end - table_ref->field_translation))) ||
/* This is stored table or a tmptable view. */
(!table_ref->field_translation && table_ref->join_columns->elements == table_ref->table->s->fields)));
field_it= &natural_join_it;
}
/* This is a base table or stored view. */
else
{
assert(table_ref->table);
field_it= &table_field_it;
}
field_it->set(table_ref);
return;
}
void Field_iterator_table_ref::set(TableList *table)
{
assert(table);
first_leaf= table->first_leaf_for_name_resolution();
last_leaf= table->last_leaf_for_name_resolution();
assert(first_leaf && last_leaf);
table_ref= first_leaf;
set_field_iterator();
}
void Field_iterator_table_ref::next()
{
/* Move to the next field in the current table reference. */
field_it->next();
/*
If all fields of the current table reference are exhausted, move to
the next leaf table reference.
*/
if (field_it->end_of_fields() && table_ref != last_leaf)
{
table_ref= table_ref->next_name_resolution_table;
assert(table_ref);
set_field_iterator();
}
}
const char *Field_iterator_table_ref::table_name()
{
if (table_ref->is_natural_join)
return natural_join_it.column_ref()->table_name();
assert(!strcmp(table_ref->table_name,
table_ref->table->s->table_name.str));
return table_ref->table_name;
}
const char *Field_iterator_table_ref::db_name()
{
if (table_ref->is_natural_join)
return natural_join_it.column_ref()->db_name();
/*
Test that TableList::db is the same as st_table_share::db to
ensure consistency. An exception are I_S schema tables, which
are inconsistent in this respect.
*/
assert(!strcmp(table_ref->db, table_ref->table->s->db.str) ||
(table_ref->schema_table &&
table_ref->table->s->db.str[0] == 0));
return table_ref->db;
}
/*
Create new or return existing column reference to a column of a
natural/using join.
SYNOPSIS
Field_iterator_table_ref::get_or_create_column_ref()
parent_table_ref the parent table reference over which the
iterator is iterating
DESCRIPTION
Create a new natural join column for the current field of the
iterator if no such column was created, or return an already
created natural join column. The former happens for base tables or
views, and the latter for natural/using joins. If a new field is
created, then the field is added to 'parent_table_ref' if it is
given, or to the original table referene of the field if
parent_table_ref == NULL.
NOTES
This method is designed so that when a Field_iterator_table_ref
walks through the fields of a table reference, all its fields
are created and stored as follows:
- If the table reference being iterated is a stored table, view or
natural/using join, store all natural join columns in a list
attached to that table reference.
- If the table reference being iterated is a nested join that is
not natural/using join, then do not materialize its result
fields. This is OK because for such table references
Field_iterator_table_ref iterates over the fields of the nested
table references (recursively). In this way we avoid the storage
of unnecessay copies of result columns of nested joins.
RETURN
# Pointer to a column of a natural join (or its operand)
NULL No memory to allocate the column
*/
Natural_join_column *
Field_iterator_table_ref::get_or_create_column_ref(TableList *parent_table_ref)
{
Natural_join_column *nj_col;
bool is_created= true;
uint32_t field_count=0;
TableList *add_table_ref= parent_table_ref ?
parent_table_ref : table_ref;
if (field_it == &table_field_it)
{
/* The field belongs to a stored table. */
Field *tmp_field= table_field_it.field();
nj_col= new Natural_join_column(tmp_field, table_ref);
field_count= table_ref->table->s->fields;
}
else
{
/*
The field belongs to a NATURAL join, therefore the column reference was
already created via one of the two constructor calls above. In this case
we just return the already created column reference.
*/
assert(table_ref->is_join_columns_complete);
is_created= false;
nj_col= natural_join_it.column_ref();
assert(nj_col);
}
assert(!nj_col->table_field ||
nj_col->table_ref->table == nj_col->table_field->table);
/*
If the natural join column was just created add it to the list of
natural join columns of either 'parent_table_ref' or to the table
reference that directly contains the original field.
*/
if (is_created)
{
/* Make sure not all columns were materialized. */
assert(!add_table_ref->is_join_columns_complete);
if (!add_table_ref->join_columns)
{
/* Create a list of natural join columns on demand. */
if (!(add_table_ref->join_columns= new List<Natural_join_column>))
return NULL;
add_table_ref->is_join_columns_complete= false;
}
add_table_ref->join_columns->push_back(nj_col);
/*
If new fields are added to their original table reference, mark if
all fields were added. We do it here as the caller has no easy way
of knowing when to do it.
If the fields are being added to parent_table_ref, then the caller
must take care to mark when all fields are created/added.
*/
if (!parent_table_ref &&
add_table_ref->join_columns->elements == field_count)
add_table_ref->is_join_columns_complete= true;
}
return nj_col;
}
/*
Return an existing reference to a column of a natural/using join.
SYNOPSIS
Field_iterator_table_ref::get_natural_column_ref()
DESCRIPTION
The method should be called in contexts where it is expected that
all natural join columns are already created, and that the column
being retrieved is a Natural_join_column.
RETURN
# Pointer to a column of a natural join (or its operand)
NULL No memory to allocate the column
*/
Natural_join_column *
Field_iterator_table_ref::get_natural_column_ref()
{
Natural_join_column *nj_col;
assert(field_it == &natural_join_it);
/*
The field belongs to a NATURAL join, therefore the column reference was
already created via one of the two constructor calls above. In this case
we just return the already created column reference.
*/
nj_col= natural_join_it.column_ref();
assert(nj_col &&
(!nj_col->table_field ||
nj_col->table_ref->table == nj_col->table_field->table));
return nj_col;
}
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