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Kirill Smelkov
mariadb
Commits
e25db795
Commit
e25db795
authored
Aug 08, 2010
by
Sergey Petrunya
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DS-MRR, key-ordered retrievals: commit for buildbot
parent
7391175d
Changes
2
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2 changed files
with
581 additions
and
255 deletions
+581
-255
sql/multi_range_read.cc
sql/multi_range_read.cc
+444
-243
sql/multi_range_read.h
sql/multi_range_read.h
+137
-12
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sql/multi_range_read.cc
View file @
e25db795
...
@@ -287,6 +287,84 @@ scan_it_again:
...
@@ -287,6 +287,84 @@ scan_it_again:
* DS-MRR implementation
* DS-MRR implementation
***************************************************************************/
***************************************************************************/
void
SimpleBuffer
::
write
(
const
uchar
*
data
,
size_t
bytes
)
{
DBUG_ASSERT
(
have_space_for
(
bytes
));
if
(
direction
==
-
1
)
write_pos
-=
bytes
;
memcpy
(
write_pos
,
data
,
bytes
);
if
(
direction
==
1
)
write_pos
+=
bytes
;
}
bool
SimpleBuffer
::
have_space_for
(
size_t
bytes
)
{
if
(
direction
==
1
)
return
(
write_pos
+
bytes
<
end
);
else
return
(
write_pos
-
bytes
>=
start
);
}
size_t
SimpleBuffer
::
used_size
()
{
return
(
direction
==
1
)
?
write_pos
-
read_pos
:
read_pos
-
write_pos
;
}
uchar
*
SimpleBuffer
::
read
(
size_t
bytes
)
{
DBUG_ASSERT
(
have_data
(
bytes
));
uchar
*
res
;
if
(
direction
==
1
)
{
res
=
read_pos
;
read_pos
+=
bytes
;
return
res
;
}
else
{
read_pos
=
read_pos
-
bytes
;
return
read_pos
;
}
}
bool
SimpleBuffer
::
have_data
(
size_t
bytes
)
{
return
(
direction
==
1
)
?
(
write_pos
-
read_pos
>=
(
ptrdiff_t
)
bytes
)
:
(
read_pos
-
write_pos
>=
(
ptrdiff_t
)
bytes
);
}
void
SimpleBuffer
::
reset_for_writing
()
{
if
(
direction
==
1
)
write_pos
=
read_pos
=
start
;
else
write_pos
=
read_pos
=
end
;
}
void
SimpleBuffer
::
reset_for_reading
()
{
/*
Do we need this at all?
if (direction == 1)
pos= start;
else
pos= end;
//end?
*/
}
uchar
*
SimpleBuffer
::
end_of_space
()
{
if
(
direction
==
1
)
return
start
;
else
return
end
;
//TODO: check this.
}
/**
/**
DS-MRR: Initialize and start MRR scan
DS-MRR: Initialize and start MRR scan
...
@@ -309,7 +387,6 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -309,7 +387,6 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
void
*
seq_init_param
,
uint
n_ranges
,
uint
mode
,
void
*
seq_init_param
,
uint
n_ranges
,
uint
mode
,
HANDLER_BUFFER
*
buf
)
HANDLER_BUFFER
*
buf
)
{
{
uint
elem_size
;
Item
*
pushed_cond
=
NULL
;
Item
*
pushed_cond
=
NULL
;
handler
*
new_h2
=
0
;
handler
*
new_h2
=
0
;
THD
*
thd
=
current_thd
;
THD
*
thd
=
current_thd
;
...
@@ -330,69 +407,69 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -330,69 +407,69 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
}
}
use_default_impl
=
FALSE
;
use_default_impl
=
FALSE
;
is_mrr_assoc
=
!
test
(
mode
&
HA_MRR_NO_ASSOCIATION
);
is_mrr_assoc
=
!
test
(
mode
&
HA_MRR_NO_ASSOCIATION
);
// psergey2: split the buffer:
/*
/*
psergey2-note: we can't split the buffer here because we don't know how key
Figure out what steps we'll need to do
length. we'll only be able to do it when we've got the first range.
*/
*/
do_sort_keys
=
FALSE
;
if
((
mode
&
HA_MRR_SINGLE_POINT
)
&&
if
((
mode
&
HA_MRR_SINGLE_POINT
)
&&
optimizer_flag
(
thd
,
OPTIMIZER_SWITCH_MRR_SORT_KEYS
))
optimizer_flag
(
thd
,
OPTIMIZER_SWITCH_MRR_SORT_KEYS
))
{
{
//do_sort_keys= TRUE; // will use key buffer to sort keys
;
do_sort_keys
=
TRUE
;
use_key_pointers
=
test
(
mode
&
HA_MRR_MATERIALIZED_KEYS
);
use_key_pointers
=
test
(
mode
&
HA_MRR_MATERIALIZED_KEYS
);
}
}
/*
do_rowid_fetch
=
FALSE
;
do_rowid_fetch
=
FALSE
;
if (!doing_cpk_scan && !index_only_read)
doing_cpk_scan
=
check_cpk_scan
(
h
->
active_index
,
mode
);
if
(
!
doing_cpk_scan
/* && !index_only_read */
)
{
{
do_rowid_fetch= TRUE; //will use rowid buffer to store/sort rowids, etc
/* Will use rowid buffer to store/sort rowids, etc */
do_rowid_fetch
=
TRUE
;
}
}
DBUG_ASSERT
(
do_sort_keys
||
do_rowid_fetch
);
full_buf
=
buf
->
buffer
;
if (do_sort_keys && do_rowid_fetch)
full_buf_end
=
buf
->
buffer_end
;
{
split buffer space proportionally
/*
}
At start, alloc all of the buffer for rowids. Key sorting code will grab a
else
piece if necessary.
{
// give all space to one buffer
if (do_sort_keys)
{
//sort_buffer_start= ...;
}
else
{
DBUG_ASSERT(do_rowid_fetch);
//rowid_buffer_start= ...;
}
}
*/
*/
mrr_buf
=
buf
->
buffer
;
rowid_buffer
.
set_buffer_space
(
full_buf
,
full_buf_end
,
1
);
mrr_buf_end
=
buf
->
buffer_end
;
if
(
is_mrr_assoc
)
if
(
is_mrr_assoc
)
status_var_increment
(
table
->
in_use
->
status_var
.
ha_multi_range_read_init_count
);
status_var_increment
(
table
->
in_use
->
status_var
.
ha_multi_range_read_init_count
);
if
((
doing_cpk_scan
=
check_cpk_scan
(
h
->
active_index
,
mode
)))
/*
psergey2-todo: for CPK scans:
- use MRR irrespectively of @@mrr_sort_keys setting,
- dont do rowid retrieval.
*/
if
(
do_sort_keys
)
{
{
/* It's a DS-MRR/CPK scan */
/* It's a DS-MRR/CPK scan */
cpk_tuple_length
=
0
;
/* dummy value telling it needs to be inited */
key_tuple_length
=
0
;
/* dummy value telling it needs to be inited */
cpk_have_range
=
FALSE
;
key_buff_elem_size
=
0
;
in_index_range
=
FALSE
;
h
->
mrr_iter
=
seq_funcs
->
init
(
seq_init_param
,
n_ranges
,
mode
);
h
->
mrr_iter
=
seq_funcs
->
init
(
seq_init_param
,
n_ranges
,
mode
);
h
->
mrr_funcs
=
*
seq_funcs
;
h
->
mrr_funcs
=
*
seq_funcs
;
keyno
=
h
->
active_index
!=
MAX_KEY
?
h
->
active_index
:
h2
->
active_index
;
dsmrr_fill_key_buffer
();
dsmrr_fill_key_buffer
();
if
(
dsmrr_eof
)
if
(
dsmrr_eof
&&
!
do_rowid_fetch
)
buf
->
end_of_used_area
=
mrr_buf_last
;
buf
->
end_of_used_area
=
key_buffer
.
end_of_space
();
DBUG_RETURN
(
0
);
/* nothing could go wrong while filling the buffer */
}
}
/* In regular DS-MRR, buffer stores {rowid, range_id} pairs */
if
(
!
do_rowid_fetch
)
elem_size
=
h
->
ref_length
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
{
mrr_buf_last
=
mrr_buf
+
((
mrr_buf_end
-
mrr_buf
)
/
elem_size
)
*
elem_size
;
/*
mrr_buf_end
=
mrr_buf_last
;
We have the keys and won't need to fetch rowids, as key lookup will be
the last operation, done in multi_range_read_next().
*/
DBUG_RETURN
(
0
);
}
rowid_buff_elem_size
=
h
->
ref_length
+
(
is_mrr_assoc
?
sizeof
(
char
*
)
:
0
);
/*
/*
psergey2: this is only needed when
psergey2: this is only needed when
- doing a rowid-to-row scan
- doing a rowid-to-row scan
...
@@ -416,7 +493,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -416,7 +493,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
if
(
check_stack_overrun
(
thd
,
5
*
STACK_MIN_SIZE
,
(
uchar
*
)
&
new_h2
))
if
(
check_stack_overrun
(
thd
,
5
*
STACK_MIN_SIZE
,
(
uchar
*
)
&
new_h2
))
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
DBUG_ASSERT
(
h
->
active_index
!=
MAX_KEY
);
DBUG_ASSERT
(
h
->
active_index
!=
MAX_KEY
);
uint
mrr_
keyno
=
h
->
active_index
;
keyno
=
h
->
active_index
;
/* Create a separate handler object to do rnd_pos() calls. */
/* Create a separate handler object to do rnd_pos() calls. */
if
(
!
(
new_h2
=
h
->
clone
(
thd
->
mem_root
))
||
if
(
!
(
new_h2
=
h
->
clone
(
thd
->
mem_root
))
||
...
@@ -426,7 +503,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -426,7 +503,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
DBUG_RETURN
(
1
);
DBUG_RETURN
(
1
);
}
}
if
(
mrr_
keyno
==
h
->
pushed_idx_cond_keyno
)
if
(
keyno
==
h
->
pushed_idx_cond_keyno
)
pushed_cond
=
h
->
pushed_idx_cond
;
pushed_cond
=
h
->
pushed_idx_cond
;
/*
/*
...
@@ -443,12 +520,14 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -443,12 +520,14 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
h2
=
new_h2
;
/* Ok, now can put it into h2 */
h2
=
new_h2
;
/* Ok, now can put it into h2 */
table
->
prepare_for_position
();
table
->
prepare_for_position
();
h2
->
extra
(
HA_EXTRA_KEYREAD
);
h2
->
extra
(
HA_EXTRA_KEYREAD
);
h2
->
mrr_funcs
=
*
seq_funcs
;
//psergey3-todo: sort out where to store
if
(
h2
->
ha_index_init
(
mrr_keyno
,
FALSE
))
h2
->
mrr_iter
=
h
->
mrr_iter
;
if
(
h2
->
ha_index_init
(
keyno
,
FALSE
))
goto
error
;
goto
error
;
if
(
pushed_cond
)
if
(
pushed_cond
)
h2
->
idx_cond_push
(
mrr_
keyno
,
pushed_cond
);
h2
->
idx_cond_push
(
keyno
,
pushed_cond
);
}
}
else
else
{
{
...
@@ -467,10 +546,15 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -467,10 +546,15 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
if
(
res
)
if
(
res
)
goto
error
;
goto
error
;
}
}
if
(
!
do_sort_keys
&&
h2
->
handler
::
multi_range_read_init
(
seq_funcs
,
seq_init_param
,
n_ranges
,
mode
,
buf
))
{
goto
error
;
}
if
(
h2
->
handler
::
multi_range_read_init
(
seq_funcs
,
seq_init_param
,
n_ranges
,
if
(
dsmrr_fill_rowid_buffer
())
mode
,
buf
)
||
dsmrr_fill_rowid_buffer
())
{
{
goto
error
;
goto
error
;
}
}
...
@@ -479,7 +563,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
...
@@ -479,7 +563,7 @@ int DsMrr_impl::dsmrr_init(handler *h_arg, RANGE_SEQ_IF *seq_funcs,
adjust *buf to indicate that the remaining buffer space will not be used.
adjust *buf to indicate that the remaining buffer space will not be used.
*/
*/
if
(
dsmrr_eof
)
if
(
dsmrr_eof
)
buf
->
end_of_used_area
=
mrr_buf_last
;
buf
->
end_of_used_area
=
rowid_buffer
.
end_of_space
()
;
/*
/*
h->inited == INDEX may occur when 'range checked for each record' is
h->inited == INDEX may occur when 'range checked for each record' is
...
@@ -526,21 +610,24 @@ static int rowid_cmp(void *h, uchar *a, uchar *b)
...
@@ -526,21 +610,24 @@ static int rowid_cmp(void *h, uchar *a, uchar *b)
/**
/**
DS-MRR: Fill
the buffer with rowids and sort it by rowid
DS-MRR: Fill
and sort the rowid buffer
{This is an internal function of DiskSweep MRR implementation}
{This is an internal function of DiskSweep MRR implementation}
Scan the MRR ranges and collect ROWIDs (or {ROWID, range_id} pairs) into
Scan the MRR ranges and collect ROWIDs (or {ROWID, range_id} pairs) into
buffer. When the buffer is full or scan is completed, sort the buffer by
buffer. When the buffer is full or scan is completed, sort the buffer by
rowid and return.
rowid and return.
The function assumes that rowids buffer is empty when it is invoked.
The function assumes that rowids buffer is empty when it is invoked.
New2:
we will need to scan either
- the source sequence getting records
- use dsmrr_next_from_index..
dsmrr_eof is set to indicate whether we've exhausted the list of ranges we're
dsmrr_eof is set to indicate whether we've exhausted the list of ranges we're
scanning.
scanning.
psergey2: this func will 'fill the rowid buffer'. If filling the rowid buffer
requires that key buffer is filled/sorted first, will do that, too.
@param h Table handler
@param h Table handler
@retval 0 OK, the next portion of rowids is in the buffer,
@retval 0 OK, the next portion of rowids is in the buffer,
...
@@ -554,40 +641,32 @@ int DsMrr_impl::dsmrr_fill_rowid_buffer()
...
@@ -554,40 +641,32 @@ int DsMrr_impl::dsmrr_fill_rowid_buffer()
int
res
;
int
res
;
DBUG_ENTER
(
"DsMrr_impl::dsmrr_fill_rowid_buffer"
);
DBUG_ENTER
(
"DsMrr_impl::dsmrr_fill_rowid_buffer"
);
mrr_buf_cur
=
mrr_buf
;
rowid_buffer
.
reset_for_writing
();
mrr_buf_next_identical
=
mrr_buf_cur
;
identical_rowid_ptr
=
NULL
;
/*
psergey2-todo:
- call here fill/sort key buffer, if needed.
psergey2-todo: then, get keys either from
while
(
rowid_buffer
.
have_space_for
(
rowid_buff_elem_size
))
- multi_range_read_next()
- sorted key buffer
psergey2-todo: if we're traversing an ordered key sequence,
check if next keys are the same as previous.
(note that it's easy as ordered sequence allows forward/backward
navigation so we don't need to buffer things)
*/
while
((
mrr_buf_cur
<
mrr_buf_end
)
&&
!
(
res
=
h2
->
handler
::
multi_range_read_next
(
&
range_info
)))
{
{
if
(
do_sort_keys
)
res
=
dsmrr_next_from_index
(
&
range_info
);
else
res
=
h2
->
handler
::
multi_range_read_next
(
&
range_info
);
if
(
res
)
break
;
KEY_MULTI_RANGE
*
curr_range
=
&
h2
->
handler
::
mrr_cur_range
;
KEY_MULTI_RANGE
*
curr_range
=
&
h2
->
handler
::
mrr_cur_range
;
if
(
h2
->
mrr_funcs
.
skip_index_tuple
&&
if
(
!
do_sort_keys
&&
/* If keys are sorted then this check is already done */
h2
->
mrr_funcs
.
skip_index_tuple
&&
h2
->
mrr_funcs
.
skip_index_tuple
(
h2
->
mrr_iter
,
curr_range
->
ptr
))
h2
->
mrr_funcs
.
skip_index_tuple
(
h2
->
mrr_iter
,
curr_range
->
ptr
))
continue
;
continue
;
/* Put rowid, or {rowid, range_id} pair into the buffer */
/* Put rowid, or {rowid, range_id} pair into the buffer */
h2
->
position
(
table
->
record
[
0
]);
h2
->
position
(
table
->
record
[
0
]);
memcpy
(
mrr_buf_cur
,
h2
->
ref
,
h2
->
ref_length
);
rowid_buffer
.
write
(
h2
->
ref
,
h2
->
ref_length
);
mrr_buf_cur
+=
h2
->
ref_length
;
if
(
is_mrr_assoc
)
if
(
is_mrr_assoc
)
{
rowid_buffer
.
write
((
uchar
*
)
&
range_info
,
sizeof
(
void
*
));
memcpy
(
mrr_buf_cur
,
&
range_info
,
sizeof
(
void
*
));
mrr_buf_cur
+=
sizeof
(
void
*
);
}
}
}
if
(
res
&&
res
!=
HA_ERR_END_OF_FILE
)
if
(
res
&&
res
!=
HA_ERR_END_OF_FILE
)
...
@@ -596,12 +675,11 @@ int DsMrr_impl::dsmrr_fill_rowid_buffer()
...
@@ -596,12 +675,11 @@ int DsMrr_impl::dsmrr_fill_rowid_buffer()
/* Sort the buffer contents by rowid */
/* Sort the buffer contents by rowid */
uint
elem_size
=
h
->
ref_length
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
uint
elem_size
=
h
->
ref_length
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
uint
n_rowids
=
(
mrr_buf_cur
-
mrr_buf
)
/
elem_size
;
uint
n_rowids
=
rowid_buffer
.
used_size
(
)
/
elem_size
;
my_qsort2
(
mrr_buf
,
n_rowids
,
elem_size
,
(
qsort2_cmp
)
rowid_cmp
,
my_qsort2
(
rowid_buffer
.
used_area
(),
n_rowids
,
elem_size
,
(
void
*
)
h
);
(
qsort2_cmp
)
rowid_cmp
,
(
void
*
)
h
);
mrr_buf_last
=
mrr_buf_cur
;
mrr_buf_cur
=
mrr_buf
;
DBUG_RETURN
(
0
);
DBUG_RETURN
(
0
);
}
}
...
@@ -616,8 +694,8 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
...
@@ -616,8 +694,8 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
{
{
DsMrr_impl
*
dsmrr
=
(
DsMrr_impl
*
)
arg
;
DsMrr_impl
*
dsmrr
=
(
DsMrr_impl
*
)
arg
;
TABLE
*
table
=
dsmrr
->
h
->
table
;
TABLE
*
table
=
dsmrr
->
h
->
table
;
int
res
;
KEY_PART_INFO
*
part
=
table
->
key_info
[
table
->
s
->
primary_key
].
key_part
;
KEY_PART_INFO
*
part
=
table
->
key_info
[
dsmrr
->
keyno
].
key_part
;
if
(
dsmrr
->
use_key_pointers
)
if
(
dsmrr
->
use_key_pointers
)
{
{
...
@@ -626,15 +704,31 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
...
@@ -626,15 +704,31 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
key2
=
*
((
uchar
**
)
key2
);
// todo is this alignment-safe?
key2
=
*
((
uchar
**
)
key2
);
// todo is this alignment-safe?
}
}
uchar
*
key1_end
=
key1
+
dsmrr
->
cpk
_tuple_length
;
uchar
*
key1_end
=
key1
+
dsmrr
->
key
_tuple_length
;
while
(
key1
<
key1_end
)
while
(
key1
<
key1_end
)
{
{
Field
*
f
=
part
->
field
;
Field
*
f
=
part
->
field
;
int
len
=
part
->
store_length
;
int
len
=
part
->
store_length
;
int
res
=
f
->
cmp
(
key1
,
key2
);
if
(
part
->
null_bit
)
if
(
res
)
{
if
(
*
key1
)
// key1 == NULL
{
if
(
!*
key2
)
// key1(NULL) < key2(notNULL)
return
-
1
;
goto
equals
;
}
else
if
(
*
key2
)
// key1(notNULL) > key2 (NULL)
return
1
;
// Step over NULL byte for f->cmp().
key1
++
;
key2
++
;
len
--
;
}
if
((
res
=
f
->
key_cmp
(
key1
,
key2
)))
return
res
;
return
res
;
equals:
key1
+=
len
;
key1
+=
len
;
key2
+=
len
;
key2
+=
len
;
part
++
;
part
++
;
...
@@ -643,6 +737,68 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
...
@@ -643,6 +737,68 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
}
}
/*
Setup key/rowid buffer sizes based on sample_key
DESCRIPTION
Setup key/rowid buffer sizes based on sample_key and its length.
This function must be called when all buffer space is empty.
*/
void
DsMrr_impl
::
setup_buffer_sizes
(
key_range
*
sample_key
)
{
key_tuple_length
=
sample_key
->
length
;
key_tuple_map
=
sample_key
->
keypart_map
;
key_size_in_keybuf
=
use_key_pointers
?
sizeof
(
char
*
)
:
key_tuple_length
;
key_buff_elem_size
=
key_size_in_keybuf
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
uint
rowid_buf_elem_size
=
h
->
ref_length
+
(
int
)
is_mrr_assoc
*
sizeof
(
char
*
);
KEY
*
key_info
=
&
h
->
table
->
key_info
[
keyno
];
/*
Use rec_per_key statistics as a basis to find out how many rowids
we'll get for each key value.
TODO: are we guaranteed to get r_p_c==1 for unique keys?
TODO: what should be the default value to use when there is no
statistics?
*/
uint
parts
=
my_count_bits
(
key_tuple_map
);
ulong
rpc
;
if
((
rpc
=
key_info
->
rec_per_key
[
parts
-
1
]))
{
rowid_buf_elem_size
*=
rpc
;
}
double
fraction_for_rowids
=
((
double
)
rowid_buf_elem_size
/
((
double
)
rowid_buf_elem_size
+
key_buff_elem_size
));
uint
bytes_for_rowids
=
round
(
fraction_for_rowids
*
(
full_buf_end
-
full_buf
));
uint
bytes_for_keys
=
(
full_buf_end
-
full_buf
)
-
bytes_for_rowids
;
if
(
bytes_for_keys
<
key_buff_elem_size
+
1
)
{
uint
add
=
key_buff_elem_size
+
1
-
bytes_for_keys
;
bytes_for_rowids
-=
add
;
DBUG_ASSERT
(
bytes_for_rowids
>=
(
h
->
ref_length
+
(
int
)
is_mrr_assoc
*
sizeof
(
char
*
)
+
1
));
}
rowid_buffer
.
set_buffer_space
(
full_buf
,
full_buf
+
bytes_for_rowids
,
1
);
key_buffer
.
set_buffer_space
(
full_buf
+
bytes_for_rowids
,
full_buf_end
,
1
);
index_ranges_unique
=
test
(
key_info
->
flags
&
HA_NOSAME
&&
key_info
->
key_parts
==
my_count_bits
(
sample_key
->
keypart_map
));
}
/*
/*
DS-MRR/CPK: Fill the buffer with (lookup_tuple, range_id) pairs and sort
DS-MRR/CPK: Fill the buffer with (lookup_tuple, range_id) pairs and sort
...
@@ -650,69 +806,55 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
...
@@ -650,69 +806,55 @@ int DsMrr_impl::key_tuple_cmp(void* arg, uchar* key1, uchar* key2)
DsMrr_impl::dsmrr_fill_key_buffer()
DsMrr_impl::dsmrr_fill_key_buffer()
DESCRIPTION
DESCRIPTION
DS-MRR/CPK: Fill the buffer with (lookup_tuple, range_id) pairs and sort
DS-MRR/CPK: Enumerate the input range (=key) sequence, fill the key buffer
(lookup_key, range_id) pairs and sort.
dsmrr_eof is set to indicate whether we've exhausted the list of ranges
dsmrr_eof is set to indicate whether we've exhausted the list of ranges
we're scanning.
we're scanning.
psergey2-q: can this be used for filling/sorting key buffer in general case?
a: yes.
qq: can we push sequence iteration init down into here?
*/
*/
void
DsMrr_impl
::
dsmrr_fill_key_buffer
()
void
DsMrr_impl
::
dsmrr_fill_key_buffer
()
{
{
//psergey2: here, no identicals detection is necessary since we always scan
// the unordered sequence.
int
res
;
int
res
;
KEY_MULTI_RANGE
cur_range
;
KEY_MULTI_RANGE
cur_range
;
DBUG_ENTER
(
"DsMrr_impl::dsmrr_fill_key_buffer"
);
DBUG_ENTER
(
"DsMrr_impl::dsmrr_fill_key_buffer"
);
mrr_buf_cur
=
mrr_buf
;
// reset the buffer for writing.
while
((
mrr_buf_cur
<
mrr_buf_end
)
&&
key_buffer
.
reset_for_writing
();
while
((
key_buffer
.
have_space_for
(
key_buff_elem_size
))
&&
!
(
res
=
h
->
mrr_funcs
.
next
(
h
->
mrr_iter
,
&
cur_range
)))
!
(
res
=
h
->
mrr_funcs
.
next
(
h
->
mrr_iter
,
&
cur_range
)))
{
{
DBUG_ASSERT
(
cur_range
.
range_flag
&
EQ_RANGE
);
DBUG_ASSERT
(
cur_range
.
range_flag
&
EQ_RANGE
);
if
(
!
cpk
_tuple_length
)
if
(
!
key
_tuple_length
)
{
{
cpk_tuple_length
=
cur_range
.
start_key
.
length
;
/* This only happens when we've just started filling the buffer */
key_buf_element_size
=
use_key_pointers
?
sizeof
(
char
*
)
:
DBUG_ASSERT
(
key_buffer
.
used_size
()
==
0
);
cpk_tuple_length
;
setup_buffer_sizes
(
&
cur_range
.
start_key
);
cpk_is_unique_scan
=
test
(
table
->
key_info
[
h
->
active_index
].
key_parts
==
my_count_bits
(
cur_range
.
start_key
.
keypart_map
));
uint
elem_size
=
key_buf_element_size
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
mrr_buf_last
=
mrr_buf
+
((
mrr_buf_end
-
mrr_buf
)
/
elem_size
)
*
elem_size
;
mrr_buf_end
=
mrr_buf_last
;
}
}
//psergey2: if keys are materialized, store pointers, not copy keys
/* Put key, or {key, range_id} pair into the buffer */
/* Put key, or {key, range_id} pair into the buffer */
if
(
use_key_pointers
)
if
(
use_key_pointers
)
memcpy
(
mrr_buf_cur
,
&
cur_range
.
start_key
.
key
,
sizeof
(
char
*
));
key_buffer
.
write
((
uchar
*
)
&
cur_range
.
start_key
.
key
,
sizeof
(
char
*
));
else
else
memcpy
(
mrr_buf_cur
,
cur_range
.
start_key
.
key
,
cpk_tuple_length
);
key_buffer
.
write
(
cur_range
.
start_key
.
key
,
key_tuple_length
);
mrr_buf_cur
+=
key_buf_element_size
;
if
(
is_mrr_assoc
)
if
(
is_mrr_assoc
)
{
key_buffer
.
write
((
uchar
*
)
&
cur_range
.
ptr
,
sizeof
(
void
*
));
memcpy
(
mrr_buf_cur
,
&
cur_range
.
ptr
,
sizeof
(
void
*
));
mrr_buf_cur
+=
sizeof
(
void
*
);
}
}
}
dsmrr_eof
=
test
(
res
);
dsmrr_eof
=
test
(
res
);
/* Sort the buffer contents by rowid */
/* Sort the buffer contents by rowid */
uint
elem_size
=
key_buf_element_size
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
uint
key_elem_size
=
key_size_in_keybuf
+
(
int
)
is_mrr_assoc
*
sizeof
(
void
*
);
uint
n_
rowids
=
(
mrr_buf_cur
-
mrr_buf
)
/
elem_size
;
uint
n_
keys
=
key_buffer
.
used_size
()
/
key_
elem_size
;
my_qsort2
(
mrr_buf
,
n_rowids
,
elem_size
,
my_qsort2
(
key_buffer
.
used_area
(),
n_keys
,
key_elem_size
,
(
qsort2_cmp
)
DsMrr_impl
::
key_tuple_cmp
,
(
void
*
)
this
);
(
qsort2_cmp
)
DsMrr_impl
::
key_tuple_cmp
,
(
void
*
)
this
);
mrr_buf_last
=
mrr_buf_cur
;
mrr_buf_cur
=
mrr_buf
;
last_identical_key_ptr
=
NULL
;
in_identical_keys_range
=
FALSE
;
DBUG_VOID_RETURN
;
DBUG_VOID_RETURN
;
}
}
...
@@ -721,60 +863,105 @@ void DsMrr_impl::dsmrr_fill_key_buffer()
...
@@ -721,60 +863,105 @@ void DsMrr_impl::dsmrr_fill_key_buffer()
DS-MRR/CPK: multi_range_read_next() function
DS-MRR/CPK: multi_range_read_next() function
DESCRIPTION
DESCRIPTION
DsMrr_impl::dsmrr_next_
cpk
()
DsMrr_impl::dsmrr_next_
from_index
()
range_info OUT identifier of range that the returned record belongs to
range_info OUT identifier of range that the returned record belongs to
DESCRIPTION
DESCRIPTION
DS-MRR/CPK: multi_range_read_next() function.
This is similar to DsMrr_impl::dsmrr_next(), the differences are that
This function walks over key buffer and does index reads, i.e. it produces
- we get records with index_read(), not with rnd_pos()
{current_record, range_id} pairs.
- we may get multiple records for one key (=element of the buffer)
- unlike dsmrr_fill_rowid_buffer(), dsmrr_fill_key_buffer() never fails.
The function has the same call contract like multi_range_read_next()'s.
We actually iterate nested sequences:
- a disjoint sequence of index ranges
- each range has multiple records
- each record goes into multiple identical ranges.
RETURN
RETURN
0 OK, next record was successfully read
0 OK, next record was successfully read
HA_ERR_END_OF_FILE End of records
HA_ERR_END_OF_FILE End of records
Other Some other error
Other Some other error
psergey2-todo: this should detect identical keys.
*/
*/
int
DsMrr_impl
::
dsmrr_next_
cpk
(
char
**
range_info
)
int
DsMrr_impl
::
dsmrr_next_
from_index
(
char
**
range_info_arg
)
{
{
int
res
;
int
res
;
uchar
*
key_in_buf
;
handler
*
file
=
do_rowid_fetch
?
h2
:
h
;
while
(
cpk_have
_range
)
while
(
in_identical_keys
_range
)
{
{
//read_and_check:
/* Read record/key pointer from the buffer */
key_in_buf
=
identical_key_it
.
get_next
(
key_size_in_keybuf
);
if
(
is_mrr_assoc
)
cur_range_info
=
(
char
*
)
identical_key_it
.
get_next
(
sizeof
(
void
*
));
if
(
h
->
mrr_funcs
.
skip_record
&&
if
(
key_in_buf
==
last_identical_key_ptr
)
h
->
mrr_funcs
.
skip_record
(
h
->
mrr_iter
,
cpk_saved_range_info
,
NULL
))
{
{
cpk_have_range
=
FALSE
;
/* We're looking at the last of the identical keys */
break
;
in_identical_keys_range
=
FALSE
;
}
}
check_record:
uchar
*
lookup_tuple
=
use_key_pointers
?
(
*
((
uchar
**
)
mrr_buf_cur
))
:
mrr_buf_cur
;
if
((
h
->
mrr_funcs
.
skip_index_tuple
&&
res
=
h
->
index_next_same
(
table
->
record
[
0
],
lookup_tuple
,
cpk_tuple_length
);
h
->
mrr_funcs
.
skip_index_tuple
(
h
->
mrr_iter
,
*
(
char
**
)
cur_range_info
))
||
(
h
->
mrr_funcs
.
skip_record
&&
if
(
h
->
mrr_funcs
.
skip_index_tuple
&&
h
->
mrr_funcs
.
skip_record
(
h
->
mrr_iter
,
*
(
char
**
)
cur_range_info
,
NULL
)))
h
->
mrr_funcs
.
skip_index_tuple
(
h
->
mrr_iter
,
cpk_saved_range_info
))
{
continue
;
continue
;
}
memcpy
(
range_info_arg
,
cur_range_info
,
sizeof
(
void
*
));
return
0
;
}
/* Try returrning next record from the current range */
while
(
in_index_range
)
{
res
=
file
->
ha_index_next_same
(
table
->
record
[
0
],
cur_index_tuple
,
key_tuple_length
);
if
(
res
)
{
if
(
res
!=
HA_ERR_END_OF_FILE
&&
res
!=
HA_ERR_KEY_NOT_FOUND
)
return
res
;
/* Fatal error */
if
(
res
!=
HA_ERR_END_OF_FILE
)
in_index_range
=
FALSE
;
/* no more records here */
break
;
}
if
(
last_identical_key_ptr
)
{
{
i
f
(
is_mrr_assoc
)
i
n_identical_keys_range
=
TRUE
;
memcpy
(
range_info
,
&
cpk_saved_range_info
,
sizeof
(
void
*
)
);
identical_key_it
.
init
(
&
key_buffer
);
return
res
;
cur_range_info
=
first_identical_range_info
;
}
}
/* No more records in this range. Exit this loop and go get another range */
goto
check_record
;
cpk_have_range
=
FALSE
;
// goto read_and_check
;
}
}
do
while
(
1
)
{
{
DBUG_ASSERT
(
!
in_identical_keys_range
&&
!
in_index_range
);
/* Jump over the keys that were handled by identical key processing */
if
(
last_identical_key_ptr
)
{
while
(
key_buffer
.
read
(
key_size_in_keybuf
)
!=
last_identical_key_ptr
)
{
if
(
is_mrr_assoc
)
key_buffer
.
read
(
sizeof
(
void
*
));
}
if
(
is_mrr_assoc
)
key_buffer
.
read
(
sizeof
(
void
*
));
last_identical_key_ptr
=
NULL
;
}
/* First, make sure we have a range at start of the buffer */
/* First, make sure we have a range at start of the buffer */
if
(
mrr_buf_cur
==
mrr_buf_last
)
if
(
!
key_buffer
.
have_data
(
key_buff_elem_size
)
)
{
{
if
(
dsmrr_eof
)
if
(
dsmrr_eof
)
{
{
...
@@ -782,58 +969,56 @@ int DsMrr_impl::dsmrr_next_cpk(char **range_info)
...
@@ -782,58 +969,56 @@ int DsMrr_impl::dsmrr_next_cpk(char **range_info)
goto
end
;
goto
end
;
}
}
dsmrr_fill_key_buffer
();
dsmrr_fill_key_buffer
();
}
if
(
!
key_buffer
.
have_data
(
key_buff_elem_size
))
if
(
mrr_buf_cur
==
mrr_buf_last
)
{
{
res
=
HA_ERR_END_OF_FILE
;
res
=
HA_ERR_END_OF_FILE
;
goto
end
;
goto
end
;
}
}
}
/* Ok, got the range. Try making a lookup. */
/* Get the next range to scan*/
uchar
*
lookup_tuple
=
use_key_pointers
?
(
*
((
uchar
**
)
mrr_buf_cur
))
:
mrr_buf_cur
;
cur_index_tuple
=
key_in_buf
=
key_buffer
.
read
(
key_size_in_keybuf
);
mrr_buf_cur
+=
key_buf_element_size
;
if
(
use_key_pointers
)
cur_index_tuple
=
*
((
uchar
**
)
cur_index_tuple
);
if
(
is_mrr_assoc
)
if
(
is_mrr_assoc
)
cur_range_info
=
(
char
*
)
key_buffer
.
read
(
sizeof
(
void
*
));
/* Do index lookup */
if
((
res
=
file
->
ha_index_read_map
(
table
->
record
[
0
],
cur_index_tuple
,
key_tuple_map
,
HA_READ_KEY_EXACT
)))
{
{
memcpy
(
&
cpk_saved_range_info
,
mrr_buf_cur
,
sizeof
(
void
*
));
if
(
res
!=
HA_ERR_END_OF_FILE
&&
res
!=
HA_ERR_KEY_NOT_FOUND
)
mrr_buf_cur
+=
sizeof
(
void
*
)
*
test
(
is_mrr_assoc
);
return
res
;
continue
;
/* to next key and make another lookup */
}
}
if
(
h
->
mrr_funcs
.
skip_record
&&
h
->
mrr_funcs
.
skip_record
(
h
->
mrr_iter
,
cpk_saved_range_info
,
NULL
))
continue
;
res
=
h
->
index_read
(
table
->
record
[
0
],
lookup_tuple
,
cpk_tuple_length
,
HA_READ_KEY_EXACT
);
/*
/* Check if subsequent keys in the key buffer are the same as this one */
Check pushed index condition. Performance-wise, it does not make any
{
sense to put this call here (the above call has already accessed the full
uchar
*
ptr
;
record). That's the best I could do, though, because:
identical_key_it
.
init
(
&
key_buffer
);
- ha_innobase doesn't support IndexConditionPushdown on clustered PK
last_identical_key_ptr
=
NULL
;
- MRR interface doesn't allow the storage engine to refuse a pushed index
while
((
ptr
=
identical_key_it
.
get_next
(
key_size_in_keybuf
)))
condition.
{
Having this call here is not fully harmless: EXPLAIN shows "pushed index
if
(
is_mrr_assoc
)
condition", which is technically true but doesn't bring the benefits that
identical_key_it
.
get_next
(
sizeof
(
void
*
));
one might expect.
*/
if
(
h
->
mrr_funcs
.
skip_index_tuple
&&
h
->
mrr_funcs
.
skip_index_tuple
(
h
->
mrr_iter
,
cpk_saved_range_info
))
continue
;
if
(
res
&&
res
!=
HA_ERR_END_OF_FILE
)
if
(
key_tuple_cmp
(
this
,
key_in_buf
,
ptr
)
)
goto
end
;
break
;
if
(
!
res
)
last_identical_key_ptr
=
ptr
;
{
}
memcpy
(
range_info
,
&
cpk_saved_range_info
,
sizeof
(
void
*
));
if
(
last_identical_key_ptr
)
/*
{
Attempt reading more rows from this range only if there actually can
in_identical_keys_range
=
TRUE
;
be multiple matches:
identical_key_it
.
init
(
&
key_buffer
);
*/
first_identical_range_info
=
cur_range_info
;
cpk_have_range
=
!
cpk_is_unique_scan
;
}
break
;
}
}
}
while
(
true
);
in_index_range
=
!
index_ranges_unique
;
goto
check_record
;
}
end:
end:
return
res
;
return
res
;
...
@@ -842,9 +1027,6 @@ end:
...
@@ -842,9 +1027,6 @@ end:
/**
/**
DS-MRR implementation: multi_range_read_next() function
DS-MRR implementation: multi_range_read_next() function
psergey2-todo: put identical rowid detection code here
it should always work because rowid sequences are always sorted
*/
*/
int
DsMrr_impl
::
dsmrr_next
(
char
**
range_info
)
int
DsMrr_impl
::
dsmrr_next
(
char
**
range_info
)
...
@@ -852,89 +1034,108 @@ int DsMrr_impl::dsmrr_next(char **range_info)
...
@@ -852,89 +1034,108 @@ int DsMrr_impl::dsmrr_next(char **range_info)
int
res
;
int
res
;
uchar
*
cur_range_info
=
0
;
uchar
*
cur_range_info
=
0
;
uchar
*
rowid
;
uchar
*
rowid
;
uchar
*
range_id
;
if
(
use_default_impl
)
if
(
use_default_impl
)
return
h
->
handler
::
multi_range_read_next
(
range_info
);
return
h
->
handler
::
multi_range_read_next
(
range_info
);
if
(
doing_cpk_scan
)
if
(
!
do_rowid_fetch
)
return
dsmrr_next_
cpk
(
range_info
);
return
dsmrr_next_
from_index
(
range_info
);
if
(
mrr_buf_next_identical
!=
mrr_buf_cu
r
)
while
(
identical_rowid_pt
r
)
{
{
/*
/*
There are multiple rowids. Return the record again, now with different
Current record (the one we've returned in previous call) was obtained
range_id
from a rowid that matched multiple range_ids. Return this record again,
with next matching range_id.
*/
*/
do
rowid
=
rowid_buffer
.
read
(
h
->
ref_length
);
if
(
is_mrr_assoc
)
{
{
if
(
is_mrr_assoc
)
uchar
*
range_ptr
=
rowid_buffer
.
read
(
sizeof
(
uchar
*
));
memcpy
(
range_info
,
mrr_buf_next_identical
+
h
->
ref_length
,
sizeof
(
uchar
*
));
memcpy
(
range_info
,
range_ptr
,
sizeof
(
uchar
*
));
}
while
(
!
h2
->
mrr_funcs
.
skip_record
||
}
!
h2
->
mrr_funcs
.
skip_record
(
h2
->
mrr_iter
,
(
char
*
)
range_info
,
rowid
));
mrr_buf_next_identical
+=
h
->
ref_length
+
sizeof
(
void
*
)
*
test
(
is_mrr_assoc
);
if
(
rowid
==
identical_rowid_ptr
)
return
0
;
{
identical_rowid_ptr
=
NULL
;
/* reached the last of identical rowids */
}
if
(
!
h2
->
mrr_funcs
.
skip_record
||
!
h2
->
mrr_funcs
.
skip_record
(
h2
->
mrr_iter
,
(
char
*
)
*
range_info
,
rowid
))
{
return
0
;
}
}
}
do
while
(
1
)
{
{
if
(
mrr_buf_cur
==
mrr_buf_last
)
if
(
!
rowid_buffer
.
have_data
(
1
)
)
{
{
if
(
dsmrr_eof
)
if
(
dsmrr_eof
)
{
return
HA_ERR_END_OF_FILE
;
res
=
HA_ERR_END_OF_FILE
;
goto
end
;
if
(
do_sort_keys
&&
key_buffer
.
used_size
()
==
0
)
}
dsmrr_fill_key_buffer
();
res
=
dsmrr_fill_rowid_buffer
();
if
(
res
)
if
(
(
res
=
dsmrr_fill_rowid_buffer
())
)
goto
end
;
return
res
;
}
}
/* return eof if there are no rowids in the buffer after re-fill attempt */
/* Return eof if there are no rowids in the buffer after re-fill attempt */
if
(
mrr_buf_cur
==
mrr_buf_last
)
if
(
!
rowid_buffer
.
have_data
(
1
))
{
return
HA_ERR_END_OF_FILE
;
res
=
HA_ERR_END_OF_FILE
;
goto
end
;
rowid
=
rowid_buffer
.
read
(
h
->
ref_length
);
}
identical_rowid_ptr
=
NULL
;
rowid
=
mrr_buf_cur
;
if
(
is_mrr_assoc
)
if
(
is_mrr_assoc
)
memcpy
(
&
cur_range_info
,
mrr_buf_cur
+
h
->
ref_length
,
sizeof
(
uchar
**
));
{
range_id
=
rowid_buffer
.
read
(
sizeof
(
uchar
*
));
memcpy
(
&
cur_range_info
,
range_id
,
sizeof
(
uchar
*
));
memcpy
(
range_info
,
range_id
,
sizeof
(
uchar
*
));
}
size_t
element_size
=
h
->
ref_length
+
sizeof
(
void
*
)
*
test
(
is_mrr_assoc
);
//psergey2-note: the below isn't right- we won't want to skip over this
mrr_buf_cur
+=
element_size
;
// rowid because this (rowid, range_id) pair has nothing.. the next
mrr_buf_next_identical
=
mrr_buf_cur
;
// identical rowids might have something.. (but we set identicals later,
// dont we?)
if
(
h2
->
mrr_funcs
.
skip_record
&&
if
(
h2
->
mrr_funcs
.
skip_record
&&
h2
->
mrr_funcs
.
skip_record
(
h2
->
mrr_iter
,
(
char
*
)
cur_range_info
,
rowid
))
h2
->
mrr_funcs
.
skip_record
(
h2
->
mrr_iter
,
(
char
*
)
cur_range_info
,
rowid
))
continue
;
continue
;
res
=
h
->
ha_rnd_pos
(
table
->
record
[
0
],
rowid
);
res
=
h
->
ha_rnd_pos
(
table
->
record
[
0
],
rowid
);
if
(
res
==
HA_ERR_RECORD_DELETED
)
if
(
res
==
HA_ERR_RECORD_DELETED
)
continue
;
continue
;
if
(
0
)
//(!res)
/*
Check if subsequent buffer elements have the same rowid value as this
one. If yes, remember this fact so that we don't make any more rnd_pos()
calls with this value.
*/
if
(
!
res
)
{
{
/*
/*
Note: this implies that SQL layer doesn't touch table->record[0]
Note: this implies that SQL layer doesn't touch table->record[0]
between calls.
between calls.
*/
*/
uchar
*
current_el
=
mrr_buf_cur
-
element_size
;
uchar
*
ptr
;
while
(
mrr_buf_cur
!=
mrr_buf_last
&&
SimpleBuffer
::
PeekIterator
identical_rowid_it
;
!
h2
->
cmp_ref
(
current_el
,
mrr_buf_cur
))
identical_rowid_it
.
init
(
&
rowid_buffer
);
while
((
ptr
=
identical_rowid_it
.
get_next
(
h
->
ref_length
)))
{
{
mrr_buf_cur
+=
element_size
;
if
(
is_mrr_assoc
)
identical_rowid_it
.
get_next
(
sizeof
(
void
*
));
if
(
h2
->
cmp_ref
(
rowid
,
ptr
))
break
;
identical_rowid_ptr
=
ptr
;
}
}
}
}
break
;
return
0
;
}
while
(
true
);
if
(
is_mrr_assoc
)
{
memcpy
(
range_info
,
rowid
+
h
->
ref_length
,
sizeof
(
void
*
));
}
}
end:
return
res
;
return
res
;
}
}
...
...
sql/multi_range_read.h
View file @
e25db795
...
@@ -37,6 +37,96 @@
...
@@ -37,6 +37,96 @@
*/
*/
/*
A simple memory buffer for reading and writing.
when writing, there is no user-visible "current" position, although
internally 'pos' points to just after the end of used area (or at the
start of it for reverse buffer).
When reading, there is current position pointing at start (for reverse
buffer, end) of the element that will be read next.
^^ why end for reverse? it's more logical to point at start
One can peek at what's behind that element by using advance_ptr function.
TODO: will the reverse buffer store {tuple; rowid} or {rowid; tuple} pairs?
(why does it matter??? Read and write in the same order and then it
shouldn't matter.)
*/
class
SimpleBuffer
{
uchar
*
start
;
uchar
*
end
;
uchar
*
read_pos
;
uchar
*
write_pos
;
/*
1 <=> buffer grows/is filled/is read from start to end
-1 <=> everthing is done from end to start instead.
*/
int
direction
;
public:
/* Write-mode functions */
void
reset_for_writing
();
void
write
(
const
uchar
*
data
,
size_t
bytes
);
bool
have_space_for
(
size_t
bytes
);
uchar
*
used_area
()
{
return
(
direction
==
1
)
?
read_pos
:
write_pos
;
}
size_t
used_size
();
/* Read-mode functions */
void
reset_for_reading
();
uchar
*
read
(
size_t
bytes
);
bool
have_data
(
size_t
bytes
);
uchar
*
end_of_space
();
/* Control functions */
void
set_buffer_space
(
uchar
*
start_arg
,
uchar
*
end_arg
,
int
direction_arg
)
{
start
=
start_arg
;
end
=
end_arg
;
direction
=
direction_arg
;
reset_for_writing
();
}
friend
class
PeekIterator
;
class
PeekIterator
{
// if direction==1 : pointer to what to return next
// if direction==-1: pointer to the end of what is to be returned next
uchar
*
pos
;
SimpleBuffer
*
sb
;
public:
void
init
(
SimpleBuffer
*
sb_arg
)
{
sb
=
sb_arg
;
pos
=
sb
->
read_pos
;
}
/* Return pointer to next chunk of nbytes bytes and avance over it */
uchar
*
get_next
(
size_t
nbytes
)
{
if
(
sb
->
direction
==
1
)
{
if
(
pos
+
nbytes
>
sb
->
write_pos
)
return
NULL
;
uchar
*
res
=
pos
;
pos
+=
nbytes
;
return
res
;
}
else
{
if
(
pos
-
nbytes
<=
sb
->
write_pos
)
return
NULL
;
pos
-=
nbytes
;
return
pos
;
}
}
};
};
/*
/*
DS-MRR implementation for one table. Create/use one object of this class for
DS-MRR implementation for one table. Create/use one object of this class for
each ha_{myisam/innobase/etc} object. That object will be further referred to
each ha_{myisam/innobase/etc} object. That object will be further referred to
...
@@ -73,6 +163,8 @@
...
@@ -73,6 +163,8 @@
scanning.
scanning.
*/
*/
class
DsMrr_impl
class
DsMrr_impl
{
{
public:
public:
...
@@ -108,14 +200,27 @@ private:
...
@@ -108,14 +200,27 @@ private:
/* Secondary handler object. It is used for scanning the index */
/* Secondary handler object. It is used for scanning the index */
handler
*
h2
;
handler
*
h2
;
uchar
*
full_buf
;
uchar
*
full_buf_end
;
/* Buffer to store rowids, or (rowid, range_id) pairs */
/* Buffer to store rowids, or (rowid, range_id) pairs */
uchar
*
mrr_buf
;
SimpleBuffer
rowid_buffer
;
uchar
*
mrr_buf_cur
;
/* Current position when reading/writing */
uchar
*
mrr_buf_last
;
/* When reading: end of used buffer space */
uchar
*
identical_rowid_ptr
;
uchar
*
mrr_buf_end
;
/* End of the buffer */
/* Identical keys */
bool
in_identical_keys_range
;
uchar
*
last_identical_key_ptr
;
SimpleBuffer
::
PeekIterator
identical_key_it
;
uchar
*
mrr_buf_next_identical
;
SimpleBuffer
key_buffer
;
uint
keyno
;
/* Execution control */
bool
do_sort_keys
;
bool
use_key_pointers
;
bool
use_key_pointers
;
bool
do_rowid_fetch
;
bool
dsmrr_eof
;
/* TRUE <=> We have reached EOF when reading index tuples */
bool
dsmrr_eof
;
/* TRUE <=> We have reached EOF when reading index tuples */
...
@@ -129,18 +234,33 @@ private:
...
@@ -129,18 +234,33 @@ private:
/** DS-MRR/CPK variables start */
/** DS-MRR/CPK variables start */
/* Length of lookup tuple being used, in bytes */
/* Length of lookup tuple being used, in bytes */
uint
cpk_tuple_length
;
uint
key_tuple_length
;
key_part_map
key_tuple_map
;
/*
This is
= key_tuple_length if we copy keys to buffer
= sizeof(void*) if we're using pointers to materialized keys.
*/
uint
key_size_in_keybuf
;
/* = key_size_in_keybuf [ + sizeof(range_assoc_info) ] */
uint
key_buff_elem_size
;
/* = h->ref_length [ + sizeof(range_assoc_info) ] */
uint
rowid_buff_elem_size
;
uint
key_buf_element_size
;
/*
/*
TRUE <=> We're scanning on a full primary key (and not on prefix), and so
TRUE <=> We're scanning on a full primary key (and not on prefix), and so
can get max. one match for each key
can get max. one match for each key
*/
*/
bool
cpk_is_unique_scan
;
bool
index_ranges_unique
;
/* TRUE<=> we're in a middle of enumerating records from a range */
/* TRUE<=> we're in a middle of enumerating records from a range */
bool
cpk_have_range
;
bool
in_index_range
;
/* Valid if cpk_have_range==TRUE: range_id of the range we're enumerating */
uchar
*
cur_index_tuple
;
char
*
cpk_saved_range_info
;
/* if in_index_range==TRUE: range_id of the range we're enumerating */
char
*
cur_range_info
;
char
*
first_identical_range_info
;
bool
choose_mrr_impl
(
uint
keyno
,
ha_rows
rows
,
uint
*
flags
,
uint
*
bufsz
,
bool
choose_mrr_impl
(
uint
keyno
,
ha_rows
rows
,
uint
*
flags
,
uint
*
bufsz
,
COST_VECT
*
cost
);
COST_VECT
*
cost
);
...
@@ -150,6 +270,11 @@ private:
...
@@ -150,6 +270,11 @@ private:
static
int
key_tuple_cmp
(
void
*
arg
,
uchar
*
key1
,
uchar
*
key2
);
static
int
key_tuple_cmp
(
void
*
arg
,
uchar
*
key1
,
uchar
*
key2
);
int
dsmrr_fill_rowid_buffer
();
int
dsmrr_fill_rowid_buffer
();
void
dsmrr_fill_key_buffer
();
void
dsmrr_fill_key_buffer
();
int
dsmrr_next_cpk
(
char
**
range_info
);
int
dsmrr_next_from_index
(
char
**
range_info
);
void
setup_buffer_sizes
(
key_range
*
sample_key
);
static
range_seq_t
key_buf_seq_init
(
void
*
init_param
,
uint
n_ranges
,
uint
flags
);
static
uint
key_buf_seq_next
(
range_seq_t
rseq
,
KEY_MULTI_RANGE
*
range
);
};
};
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