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nexedi
MariaDB
Commits
7dbdedcb
Commit
7dbdedcb
authored
Dec 18, 2003
by
unknown
Browse files
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Precise read time estimates for index_merge/Unique
parent
211bc240
Changes
13
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13 changed files
with
604 additions
and
210 deletions
+604
-210
mysql-test/r/index_merge.result
mysql-test/r/index_merge.result
+1
-1
mysql-test/t/index_merge.test
mysql-test/t/index_merge.test
+1
-1
sql/filesort.cc
sql/filesort.cc
+4
-4
sql/ha_berkeley.h
sql/ha_berkeley.h
+1
-1
sql/ha_innodb.cc
sql/ha_innodb.cc
+2
-1
sql/ha_innodb.h
sql/ha_innodb.h
+1
-1
sql/handler.h
sql/handler.h
+2
-2
sql/mysql_priv.h
sql/mysql_priv.h
+20
-0
sql/opt_range.cc
sql/opt_range.cc
+337
-152
sql/opt_range.h
sql/opt_range.h
+51
-45
sql/records.cc
sql/records.cc
+0
-1
sql/sql_class.h
sql/sql_class.h
+2
-1
sql/uniques.cc
sql/uniques.cc
+182
-0
No files found.
mysql-test/r/index_merge.result
View file @
7dbdedcb
drop table if exists t0, t1, t2, t3;
drop table if exists t0, t1, t2, t3
,t4
;
create table t0
create table t0
(
(
key1 int not null,
key1 int not null,
...
...
mysql-test/t/index_merge.test
View file @
7dbdedcb
...
@@ -3,7 +3,7 @@
...
@@ -3,7 +3,7 @@
#
#
--
disable_warnings
--
disable_warnings
drop
table
if
exists
t0
,
t1
,
t2
,
t3
;
drop
table
if
exists
t0
,
t1
,
t2
,
t3
,
t4
;
--
enable_warnings
--
enable_warnings
# Create and fill a table with simple keys
# Create and fill a table with simple keys
...
...
sql/filesort.cc
View file @
7dbdedcb
...
@@ -88,9 +88,9 @@ ha_rows filesort(THD *thd, TABLE *table, SORT_FIELD *sortorder, uint s_length,
...
@@ -88,9 +88,9 @@ ha_rows filesort(THD *thd, TABLE *table, SORT_FIELD *sortorder, uint s_length,
#endif
#endif
FILESORT_INFO
table_sort
;
FILESORT_INFO
table_sort
;
/*
/*
d
on't use table->sort in filesort as it is also used by
D
on't use table->sort in filesort as it is also used by
QUICK_INDEX_MERGE_SELECT.
work with a copy of it and put it back at the
QUICK_INDEX_MERGE_SELECT.
Work with a copy and put it back at the end
end
when index_merge select has finished with it.
when index_merge select has finished with it.
*/
*/
memcpy
(
&
table_sort
,
&
table
->
sort
,
sizeof
(
FILESORT_INFO
));
memcpy
(
&
table_sort
,
&
table
->
sort
,
sizeof
(
FILESORT_INFO
));
table
->
sort
.
io_cache
=
NULL
;
table
->
sort
.
io_cache
=
NULL
;
...
@@ -452,7 +452,7 @@ static ha_rows find_all_keys(SORTPARAM *param, SQL_SELECT *select,
...
@@ -452,7 +452,7 @@ static ha_rows find_all_keys(SORTPARAM *param, SQL_SELECT *select,
if
(
quick_select
)
if
(
quick_select
)
{
{
/*
/*
index_merge quick select uses table->sort when retrieving rows, so free
index_merge quick select uses table->sort when retrieving rows, so free
resoures it has allocated.
resoures it has allocated.
*/
*/
end_read_record
(
&
read_record_info
);
end_read_record
(
&
read_record_info
);
...
...
sql/ha_berkeley.h
View file @
7dbdedcb
...
@@ -167,7 +167,7 @@ class ha_berkeley: public handler
...
@@ -167,7 +167,7 @@ class ha_berkeley: public handler
longlong
get_auto_increment
();
longlong
get_auto_increment
();
void
print_error
(
int
error
,
myf
errflag
);
void
print_error
(
int
error
,
myf
errflag
);
uint8
table_cache_type
()
{
return
HA_CACHE_TBL_TRANSACT
;
}
uint8
table_cache_type
()
{
return
HA_CACHE_TBL_TRANSACT
;
}
bool
primary_key_is_clustered
_covering
()
{
return
true
;
}
bool
primary_key_is_clustered
()
{
return
true
;
}
};
};
extern
bool
berkeley_skip
,
berkeley_shared_data
;
extern
bool
berkeley_skip
,
berkeley_shared_data
;
...
...
sql/ha_innodb.cc
View file @
7dbdedcb
...
@@ -2003,7 +2003,8 @@ build_template(
...
@@ -2003,7 +2003,8 @@ build_template(
update field->query_id so that the formula
update field->query_id so that the formula
thd->query_id == field->query_id did not work. */
thd->query_id == field->query_id did not work. */
ibool
index_contains_field
=
dict_index_contains_col_or_prefix
(
index
,
i
);
ibool
index_contains_field
=
dict_index_contains_col_or_prefix
(
index
,
i
);
if
(
templ_type
==
ROW_MYSQL_REC_FIELDS
&&
if
(
templ_type
==
ROW_MYSQL_REC_FIELDS
&&
((
prebuilt
->
read_just_key
&&
!
index_contains_field
)
||
((
prebuilt
->
read_just_key
&&
!
index_contains_field
)
||
...
...
sql/ha_innodb.h
View file @
7dbdedcb
...
@@ -187,7 +187,7 @@ class ha_innobase: public handler
...
@@ -187,7 +187,7 @@ class ha_innobase: public handler
void
init_table_handle_for_HANDLER
();
void
init_table_handle_for_HANDLER
();
longlong
get_auto_increment
();
longlong
get_auto_increment
();
uint8
table_cache_type
()
{
return
HA_CACHE_TBL_ASKTRANSACT
;
}
uint8
table_cache_type
()
{
return
HA_CACHE_TBL_ASKTRANSACT
;
}
bool
primary_key_is_clustered
_covering
()
{
return
true
;
}
bool
primary_key_is_clustered
()
{
return
true
;
}
};
};
extern
bool
innodb_skip
;
extern
bool
innodb_skip
;
...
...
sql/handler.h
View file @
7dbdedcb
...
@@ -378,10 +378,10 @@ class handler :public Sql_alloc
...
@@ -378,10 +378,10 @@ class handler :public Sql_alloc
/*
/*
RETURN
RETURN
true
p
rimary key (if there is one) is clustered key covering all fields
true
P
rimary key (if there is one) is clustered key covering all fields
false otherwise
false otherwise
*/
*/
virtual
bool
primary_key_is_clustered
_covering
()
{
return
false
;
}
virtual
bool
primary_key_is_clustered
()
{
return
false
;
}
};
};
/* Some extern variables used with handlers */
/* Some extern variables used with handlers */
...
...
sql/mysql_priv.h
View file @
7dbdedcb
...
@@ -118,6 +118,26 @@ extern CHARSET_INFO *national_charset_info, *table_alias_charset;
...
@@ -118,6 +118,26 @@ extern CHARSET_INFO *national_charset_info, *table_alias_charset;
*/
*/
#define TIME_FOR_COMPARE 5 // 5 compares == one read
#define TIME_FOR_COMPARE 5 // 5 compares == one read
/*
Number of comparisons of table rowids equivalent to reading one row from a
table.
*/
#define TIME_FOR_COMPARE_ROWID (TIME_FOR_COMPARE*2)
/*
For sequential disk seeks the cost formula is:
DISK_SEEK_BASE_COST + DISK_SEEK_PROP_COST * #blocks_to_skip
The cost of average seek
DISK_SEEK_BASE_COST + DISK_SEEK_PROP_COST*BLOCKS_IN_AVG_SEEK =1.0.
*/
#define DISK_SEEK_BASE_COST ((double)0.5)
#define BLOCKS_IN_AVG_SEEK 128
#define DISK_SEEK_PROP_COST ((double)0.5/BLOCKS_IN_AVG_SEEK)
/*
/*
Number of rows in a reference table when refereed through a not unique key.
Number of rows in a reference table when refereed through a not unique key.
This value is only used when we don't know anything about the key
This value is only used when we don't know anything about the key
...
...
sql/opt_range.cc
View file @
7dbdedcb
This diff is collapsed.
Click to expand it.
sql/opt_range.h
View file @
7dbdedcb
...
@@ -118,11 +118,13 @@ class QUICK_RANGE_SELECT : public QUICK_SELECT_I
...
@@ -118,11 +118,13 @@ class QUICK_RANGE_SELECT : public QUICK_SELECT_I
protected:
protected:
friend
void
print_quick_sel_range
(
QUICK_RANGE_SELECT
*
quick
,
friend
void
print_quick_sel_range
(
QUICK_RANGE_SELECT
*
quick
,
const
key_map
*
needed_reg
);
const
key_map
*
needed_reg
);
friend
QUICK_RANGE_SELECT
*
get_quick_select_for_ref
(
THD
*
thd
,
TABLE
*
table
,
friend
struct
st_table_ref
*
ref
);
QUICK_RANGE_SELECT
*
get_quick_select_for_ref
(
THD
*
thd
,
TABLE
*
table
,
struct
st_table_ref
*
ref
);
friend
bool
get_quick_keys
(
struct
st_qsel_param
*
param
,
friend
bool
get_quick_keys
(
struct
st_qsel_param
*
param
,
QUICK_RANGE_SELECT
*
quick
,
KEY_PART
*
key
,
QUICK_RANGE_SELECT
*
quick
,
KEY_PART
*
key
,
SEL_ARG
*
key_tree
,
char
*
min_key
,
uint
min_key_flag
,
SEL_ARG
*
key_tree
,
char
*
min_key
,
uint
min_key_flag
,
char
*
max_key
,
uint
max_key_flag
);
char
*
max_key
,
uint
max_key_flag
);
friend
QUICK_RANGE_SELECT
*
get_quick_select
(
struct
st_qsel_param
*
,
uint
idx
,
friend
QUICK_RANGE_SELECT
*
get_quick_select
(
struct
st_qsel_param
*
,
uint
idx
,
SEL_ARG
*
key_tree
,
SEL_ARG
*
key_tree
,
...
@@ -160,58 +162,62 @@ class QUICK_RANGE_SELECT : public QUICK_SELECT_I
...
@@ -160,58 +162,62 @@ class QUICK_RANGE_SELECT : public QUICK_SELECT_I
/*
/*
QUICK_INDEX_MERGE_SELECT - index_merge acce
s method quick select.
QUICK_INDEX_MERGE_SELECT - index_merge acces
s method quick select.
QUICK_INDEX_MERGE_SELECT uses
QUICK_INDEX_MERGE_SELECT uses
* QUICK_RANGE_SELECTs to get rows
* QUICK_RANGE_SELECTs to get rows
* Unique class to remove duplicate rows
* Unique class to remove duplicate rows
INDEX MERGE OPTIMIZER
INDEX MERGE OPTIMIZER
Current implementation doesn't detect all cases where index_merge could be
Current implementation doesn't detect all cases where index_merge could
used, in particular:
be
used, in particular:
* index_merge will never be used if range scan is possible (even if range
* index_merge will never be used if range scan is possible (even if
scan is more expensive)
range
scan is more expensive)
* index_merge+'using index' is not supported (this the consequence of the
* index_merge+'using index' is not supported (this the consequence of
above restriction)
the
above restriction)
* If WHERE part contains complex nested AND and OR conditions, some ways to
* If WHERE part contains complex nested AND and OR conditions, some ways
retrieve rows using index_merge will not be considered. The choice of
to retrieve rows using index_merge will not be considered. The choice
read plan may depend on the order of conjuncts/disjuncts in WHERE part of
of read plan may depend on the order of conjuncts/disjuncts in WHERE
the query, see comments near SEL_IMERGE::or_sel_tree_with_checks and
part of the query, see comments near imerge_list_or_list and
imerge_list_or_list function
for details.
SEL_IMERGE::or_sel_tree_with_checks functions
for details.
* there is no "index_merge_ref" method (but index_merge on non-first table
* There is no "index_merge_ref" method (but index_merge on non-first
in join is possible with 'range checked for each record').
table
in join is possible with 'range checked for each record').
See comments around SEL_IMERGE class and test_quick_select for more details.
See comments around SEL_IMERGE class and test_quick_select for more
details.
ROW RETRIEVAL ALGORITHM
ROW RETRIEVAL ALGORITHM
index_merge uses Unique class for duplicates removal. Index merge takes
index_merge uses Unique class for duplicates removal. index_merge takes
advantage of clustered covering primary key (C
CPK) if the table has one.
advantage of Clustered Primary Key (
CPK) if the table has one.
The algorithm is as follow
s:
The index_merge algorithm consists of two phase
s:
prepare() //implemented in QUICK_INDEX_MERGE_SELECT::prepare_unique
Phase 1 (implemented in QUICK_INDEX_MERGE_SELECT::prepare_unique):
{
prepare()
activate 'index only';
while(retrieve next row for non-CCPK scan)
{
{
if (there is a CCPK scan and row will be retrieved by it)
activate 'index only';
skip this row;
while(retrieve next row for non-CPK scan)
else
{
put rowid into Unique;
if (there is a CPK scan and row will be retrieved by it)
skip this row;
else
put its rowid into Unique;
}
deactivate 'index only';
}
}
deactivate 'index only';
}
Phase 2 (implemented as sequence of QUICK_INDEX_MERGE_SELECT::get_next
calls):
fetch() //implemented as sequence of QUICK_INDEX_MERGE_SELECT::get_next calls
{
retrieve all rows from row pointers stored in Unique;
free Unique;
retrieve all rows for CCPK scan;
}
fetch()
{
retrieve all rows from row pointers stored in Unique;
free Unique;
retrieve all rows for CPK scan;
}
*/
*/
class
QUICK_INDEX_MERGE_SELECT
:
public
QUICK_SELECT_I
class
QUICK_INDEX_MERGE_SELECT
:
public
QUICK_SELECT_I
...
@@ -239,10 +245,10 @@ class QUICK_INDEX_MERGE_SELECT : public QUICK_SELECT_I
...
@@ -239,10 +245,10 @@ class QUICK_INDEX_MERGE_SELECT : public QUICK_SELECT_I
/* last element in quick_selects list */
/* last element in quick_selects list */
QUICK_RANGE_SELECT
*
last_quick_select
;
QUICK_RANGE_SELECT
*
last_quick_select
;
/* quick select that uses
Covering Clustered Primary K
ey (NULL if none) */
/* quick select that uses
clustered primary k
ey (NULL if none) */
QUICK_RANGE_SELECT
*
pk_quick_select
;
QUICK_RANGE_SELECT
*
pk_quick_select
;
/* true if this select is currently doing a
CC
PK scan */
/* true if this select is currently doing a
clustered
PK scan */
bool
doing_pk_scan
;
bool
doing_pk_scan
;
Unique
*
unique
;
Unique
*
unique
;
...
...
sql/records.cc
View file @
7dbdedcb
...
@@ -98,7 +98,6 @@ void init_read_record(READ_RECORD *info,THD *thd, TABLE *table,
...
@@ -98,7 +98,6 @@ void init_read_record(READ_RECORD *info,THD *thd, TABLE *table,
}
}
}
}
else
if
(
select
&&
select
->
quick
)
else
if
(
select
&&
select
->
quick
)
//&& (select->quick->get_type() != QUICK_SELECT_I::QS_TYPE_INDEX_MERGE))
{
{
DBUG_PRINT
(
"info"
,(
"using rr_quick"
));
DBUG_PRINT
(
"info"
,(
"using rr_quick"
));
info
->
read_record
=
rr_quick
;
info
->
read_record
=
rr_quick
;
...
...
sql/sql_class.h
View file @
7dbdedcb
...
@@ -1233,7 +1233,8 @@ class Unique :public Sql_alloc
...
@@ -1233,7 +1233,8 @@ class Unique :public Sql_alloc
}
}
bool
get
(
TABLE
*
table
);
bool
get
(
TABLE
*
table
);
static
double
get_use_cost
(
MEM_ROOT
*
alloc
,
uint
nkeys
,
uint
key_size
,
ulong
max_in_memory_size
);
friend
int
unique_write_to_file
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_file
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_ptrs
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
friend
int
unique_write_to_ptrs
(
gptr
key
,
element_count
count
,
Unique
*
unique
);
};
};
...
...
sql/uniques.cc
View file @
7dbdedcb
...
@@ -63,12 +63,194 @@ Unique::Unique(qsort_cmp2 comp_func, void * comp_func_fixed_arg,
...
@@ -63,12 +63,194 @@ Unique::Unique(qsort_cmp2 comp_func, void * comp_func_fixed_arg,
comp_func_fixed_arg
);
comp_func_fixed_arg
);
/* If the following fail's the next add will also fail */
/* If the following fail's the next add will also fail */
my_init_dynamic_array
(
&
file_ptrs
,
sizeof
(
BUFFPEK
),
16
,
16
);
my_init_dynamic_array
(
&
file_ptrs
,
sizeof
(
BUFFPEK
),
16
,
16
);
/*
If you change the following, change it in get_max_elements function, too.
*/
max_elements
=
max_in_memory_size
/
ALIGN_SIZE
(
sizeof
(
TREE_ELEMENT
)
+
size
);
max_elements
=
max_in_memory_size
/
ALIGN_SIZE
(
sizeof
(
TREE_ELEMENT
)
+
size
);
open_cached_file
(
&
file
,
mysql_tmpdir
,
TEMP_PREFIX
,
DISK_BUFFER_SIZE
,
open_cached_file
(
&
file
,
mysql_tmpdir
,
TEMP_PREFIX
,
DISK_BUFFER_SIZE
,
MYF
(
MY_WME
));
MYF
(
MY_WME
));
}
}
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
#define M_E (exp(1))
inline
double
log2_n_fact
(
double
x
)
{
return
(
2
*
(
((
x
)
+
1
)
*
log
(((
x
)
+
1
)
/
M_E
)
+
log
(
2
*
M_PI
*
((
x
)
+
1
))
/
2
)
/
log
(
2
));
}
/*
Calculate cost of merge_buffers call.
NOTE
See comment near Unique::get_use_cost for cost formula derivation.
*/
static
double
get_merge_buffers_cost
(
uint
*
buff_sizes
,
uint
elem_size
,
int
last
,
int
f
,
int
t
)
{
uint
sum
=
0
;
for
(
int
i
=
f
;
i
<=
t
;
i
++
)
sum
+=
buff_sizes
[
i
];
buff_sizes
[
last
]
=
sum
;
int
n_buffers
=
t
-
f
+
1
;
double
buf_length
=
sum
*
elem_size
;
return
(((
double
)
buf_length
/
(
n_buffers
+
1
))
/
IO_SIZE
)
*
2
*
n_buffers
+
buf_length
*
log
(
n_buffers
)
/
(
TIME_FOR_COMPARE_ROWID
*
log
(
2.0
));
}
/*
Calculate cost of merging buffers into one in Unique::get, i.e. calculate
how long (in terms of disk seeks) the two call
merge_many_buffs(...);
merge_buffers(...);
will take.
SYNOPSIS
get_merge_many_buffs_cost()
alloc memory pool to use
maxbuffer # of full buffers.
max_n_elems # of elements in first maxbuffer buffers.
last_n_elems # of elements in last buffer.
elem_size size of buffer element.
NOTES
It is assumed that maxbuffer+1 buffers are merged, first maxbuffer buffers
contain max_n_elems each, last buffer contains last_n_elems elements.
The current implementation does a dumb simulation of merge_many_buffs
actions.
RETURN
>=0 Cost of merge in disk seeks.
<0 Out of memory.
*/
static
double
get_merge_many_buffs_cost
(
MEM_ROOT
*
alloc
,
uint
maxbuffer
,
uint
max_n_elems
,
uint
last_n_elems
,
int
elem_size
)
{
register
int
i
;
double
total_cost
=
0.0
;
int
lastbuff
;
uint
*
buff_sizes
;
if
(
!
(
buff_sizes
=
(
uint
*
)
alloc_root
(
alloc
,
sizeof
(
uint
)
*
(
maxbuffer
+
1
))))
return
-
1.0
;
for
(
i
=
0
;
i
<
(
int
)
maxbuffer
;
i
++
)
buff_sizes
[
i
]
=
max_n_elems
;
buff_sizes
[
maxbuffer
]
=
last_n_elems
;
if
(
maxbuffer
>=
MERGEBUFF2
)
{
/* Simulate merge_many_buff */
while
(
maxbuffer
>=
MERGEBUFF2
)
{
lastbuff
=
0
;
for
(
i
=
0
;
i
<=
(
int
)
maxbuffer
-
MERGEBUFF
*
3
/
2
;
i
+=
MERGEBUFF
)
total_cost
+=
get_merge_buffers_cost
(
buff_sizes
,
elem_size
,
lastbuff
++
,
i
,
i
+
MERGEBUFF
-
1
);
total_cost
+=
get_merge_buffers_cost
(
buff_sizes
,
elem_size
,
lastbuff
++
,
i
,
maxbuffer
);
maxbuffer
=
(
uint
)
lastbuff
-
1
;
}
}
/* Simulate final merge_buff call. */
total_cost
+=
get_merge_buffers_cost
(
buff_sizes
,
elem_size
,
0
,
0
,
maxbuffer
);
return
total_cost
;
}
/*
Calclulate cost of using Unique for processing nkeys elements of size
key_size using max_in_memory_size memory.
RETURN
Use cost as # of disk seeks.
NOTES
cost(using_unqiue) =
cost(create_trees) + (see #1)
cost(merge) + (see #2)
cost(read_result) (see #3)
1. Cost of trees creation
For each Unique::put operation there will be 2*log2(n+1) elements
comparisons, where n runs from 1 tree_size (we assume that all added
elements are different). Together this gives:
n_compares = 2*(log2(2) + log2(3) + ... + log2(N+1)) = 2*log2((N+1)!) =
= 2*ln((N+1)!) / ln(2) = {using Stirling formula} =
= 2*( (N+1)*ln((N+1)/e) + (1/2)*ln(2*pi*(N+1)) / ln(2).
then cost(tree_creation) = n_compares*ROWID_COMPARE_COST;
Total cost of creating trees:
(n_trees - 1)*max_size_tree_cost + non_max_size_tree_cost.
2. Cost of merging.
If only one tree is created by Unique no merging will be necessary.
Otherwise, we model execution of merge_many_buff function and count
#of merges. (The reason behind this is that number of buffers is small,
while size of buffers is big and we don't want to loose precision with
O(x)-style formula)
3. If only one tree is created by Unique no disk io will happen.
Otherwise, ceil(key_len*n_keys) disk seeks are necessary. We assume
these will be random seeks.
*/
double
Unique
::
get_use_cost
(
MEM_ROOT
*
alloc
,
uint
nkeys
,
uint
key_size
,
ulong
max_in_memory_size
)
{
ulong
max_elements_in_tree
;
ulong
last_tree_elems
;
int
n_full_trees
;
/* number of trees in unique - 1 */
double
result
;
max_elements_in_tree
=
max_in_memory_size
/
ALIGN_SIZE
(
sizeof
(
TREE_ELEMENT
)
+
key_size
);
n_full_trees
=
nkeys
/
max_elements_in_tree
;
last_tree_elems
=
nkeys
%
max_elements_in_tree
;
/* Calculate cost of creating trees */
result
=
log2_n_fact
(
last_tree_elems
);
if
(
n_full_trees
)
result
+=
n_full_trees
*
log2_n_fact
(
max_elements_in_tree
);
result
/=
TIME_FOR_COMPARE_ROWID
;
/* Calculate cost of merging */
if
(
!
n_full_trees
)
return
result
;
/* There is more then one tree and merging is necessary. */
/* Add cost of writing all trees to disk. */
result
+=
n_full_trees
*
ceil
(
key_size
*
max_elements_in_tree
/
IO_SIZE
);
result
+=
ceil
(
key_size
*
last_tree_elems
/
IO_SIZE
);
/* Cost of merge */
result
+=
get_merge_many_buffs_cost
(
alloc
,
n_full_trees
,
max_elements_in_tree
,
last_tree_elems
,
key_size
);
/*
Add cost of reading the resulting sequence, assuming there were no
duplicate elements.
*/
result
+=
ceil
((
double
)
key_size
*
nkeys
/
IO_SIZE
);
return
result
;
}
Unique
::~
Unique
()
Unique
::~
Unique
()
{
{
close_cached_file
(
&
file
);
close_cached_file
(
&
file
);
...
...
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