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nexedi
MariaDB
Commits
a5e7b6ac
Commit
a5e7b6ac
authored
Jan 29, 2014
by
Yoni Fogel
Browse files
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Browse Files
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Plain Diff
Refs Tokutek/ft-index#46 Rename dmt_size->num_klpairs, dmt_iterate*->iterate*
parent
4d3451ac
Changes
22
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Showing
22 changed files
with
87 additions
and
90 deletions
+87
-90
ft/bndata.cc
ft/bndata.cc
+5
-5
ft/bndata.h
ft/bndata.h
+4
-7
ft/ft-flusher.cc
ft/ft-flusher.cc
+11
-11
ft/ft-ops.cc
ft/ft-ops.cc
+28
-28
ft/ft-verify.cc
ft/ft-verify.cc
+1
-1
ft/ft.cc
ft/ft.cc
+1
-1
ft/ft_node-serialize.cc
ft/ft_node-serialize.cc
+4
-4
ft/ftloader.cc
ft/ftloader.cc
+1
-1
ft/tests/ft-serialize-test.cc
ft/tests/ft-serialize-test.cc
+9
-9
ft/tests/make-tree.cc
ft/tests/make-tree.cc
+1
-1
ft/tests/orthopush-flush.cc
ft/tests/orthopush-flush.cc
+5
-5
ft/tests/test-checkpoint-during-merge.cc
ft/tests/test-checkpoint-during-merge.cc
+3
-3
ft/tests/test-checkpoint-during-rebalance.cc
ft/tests/test-checkpoint-during-rebalance.cc
+2
-2
ft/tests/test-checkpoint-during-split.cc
ft/tests/test-checkpoint-during-split.cc
+3
-3
ft/tests/verify-bad-msn.cc
ft/tests/verify-bad-msn.cc
+1
-1
ft/tests/verify-bad-pivots.cc
ft/tests/verify-bad-pivots.cc
+1
-1
ft/tests/verify-dup-in-leaf.cc
ft/tests/verify-dup-in-leaf.cc
+1
-1
ft/tests/verify-dup-pivots.cc
ft/tests/verify-dup-pivots.cc
+1
-1
ft/tests/verify-misrouted-msgs.cc
ft/tests/verify-misrouted-msgs.cc
+1
-1
ft/tests/verify-unsorted-leaf.cc
ft/tests/verify-unsorted-leaf.cc
+1
-1
ft/tests/verify-unsorted-pivots.cc
ft/tests/verify-unsorted-pivots.cc
+1
-1
ft/tokuftdump.cc
ft/tokuftdump.cc
+2
-2
No files found.
ft/bndata.cc
View file @
a5e7b6ac
...
...
@@ -186,7 +186,7 @@ void bn_data::serialize_to_wbuf(struct wbuf *const wb) {
//
// iterate over leafentries and place them into the buffer
//
dmt_
iterate
<
struct
wbuf
,
wbufwriteleafentry
>
(
wb
);
iterate
<
struct
wbuf
,
wbufwriteleafentry
>
(
wb
);
}
}
...
...
@@ -552,7 +552,7 @@ void bn_data::split_klpairs(
{
// We use move_leafentries_to during a split, and the split algorithm should never call this
// if it's splitting on a boundary, so there must be some leafentries in the range to move.
paranoid_invariant
(
split_at
<
dmt_size
());
paranoid_invariant
(
split_at
<
num_klpairs
());
right_bd
->
init_zero
();
...
...
@@ -568,7 +568,7 @@ void bn_data::split_klpairs(
left_dmt_builder
.
create
(
split_at
,
m_disksize_of_keys
);
// overkill, but safe (builder will realloc at the end)
klpair_dmt_t
::
builder
right_dmt_builder
;
right_dmt_builder
.
create
(
dmt_size
()
-
split_at
,
m_disksize_of_keys
);
// overkill, but safe (builder will realloc at the end)
right_dmt_builder
.
create
(
num_klpairs
()
-
split_at
,
m_disksize_of_keys
);
// overkill, but safe (builder will realloc at the end)
split_klpairs_extra
extra
(
this
,
right_bd
,
&
left_dmt_builder
,
&
right_dmt_builder
,
&
new_left_mp
,
split_at
);
...
...
@@ -625,7 +625,7 @@ void bn_data::verify_mempool(void) {
m_buffer
.
iterate_ptr
<
decltype
(
state
),
verify_le_in_mempool
>
(
&
state
);
}
uint32_t
bn_data
::
dmt_size
(
void
)
const
{
uint32_t
bn_data
::
num_klpairs
(
void
)
const
{
return
m_buffer
.
size
();
}
...
...
@@ -648,7 +648,7 @@ void bn_data::set_contents_as_clone_of_sorted_array(
{
//Enforce "just created" invariant.
paranoid_invariant_zero
(
m_disksize_of_keys
);
paranoid_invariant_zero
(
dmt_size
());
paranoid_invariant_zero
(
num_klpairs
());
paranoid_invariant_null
(
toku_mempool_get_base
(
&
m_buffer_mempool
));
paranoid_invariant_zero
(
toku_mempool_get_size
(
&
m_buffer_mempool
));
...
...
ft/bndata.h
View file @
a5e7b6ac
...
...
@@ -193,22 +193,19 @@ class bn_data {
void
verify_mempool
(
void
);
// size() of key dmt
// TODO(yoni): maybe rename to something like num_klpairs
uint32_t
dmt_size
(
void
)
const
;
uint32_t
num_klpairs
(
void
)
const
;
// iterate() on key dmt (and associated leafentries)
// TODO(yoni): rename to iterate
template
<
typename
iterate_extra_t
,
int
(
*
f
)(
const
void
*
key
,
const
uint32_t
keylen
,
const
LEAFENTRY
&
,
const
uint32_t
,
iterate_extra_t
*
const
)>
int
dmt_
iterate
(
iterate_extra_t
*
const
iterate_extra
)
const
{
return
dmt_iterate_on_range
<
iterate_extra_t
,
f
>
(
0
,
dmt_size
(),
iterate_extra
);
int
iterate
(
iterate_extra_t
*
const
iterate_extra
)
const
{
return
iterate_on_range
<
iterate_extra_t
,
f
>
(
0
,
num_klpairs
(),
iterate_extra
);
}
// iterate_on_range() on key dmt (and associated leafentries)
// TODO(yoni): rename to iterate_on_range
template
<
typename
iterate_extra_t
,
int
(
*
f
)(
const
void
*
key
,
const
uint32_t
keylen
,
const
LEAFENTRY
&
,
const
uint32_t
,
iterate_extra_t
*
const
)>
int
dmt_
iterate_on_range
(
const
uint32_t
left
,
const
uint32_t
right
,
iterate_extra_t
*
const
iterate_extra
)
const
{
int
iterate_on_range
(
const
uint32_t
left
,
const
uint32_t
right
,
iterate_extra_t
*
const
iterate_extra
)
const
{
klpair_iterate_extra
<
iterate_extra_t
>
klpair_extra
=
{
iterate_extra
,
this
};
return
m_buffer
.
iterate_on_range
<
klpair_iterate_extra
<
iterate_extra_t
>
,
klpair_iterate_wrapper
<
iterate_extra_t
,
f
>
>
(
left
,
right
,
&
klpair_extra
);
}
...
...
ft/ft-flusher.cc
View file @
a5e7b6ac
...
...
@@ -689,16 +689,16 @@ ftleaf_get_split_loc(
switch
(
split_mode
)
{
case
SPLIT_LEFT_HEAVY
:
{
*
num_left_bns
=
node
->
n_children
;
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
dmt_size
();
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
num_klpairs
();
if
(
*
num_left_les
==
0
)
{
*
num_left_bns
=
node
->
n_children
-
1
;
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
dmt_size
();
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
num_klpairs
();
}
goto
exit
;
}
case
SPLIT_RIGHT_HEAVY
:
{
*
num_left_bns
=
1
;
*
num_left_les
=
BLB_DATA
(
node
,
0
)
->
dmt_size
()
?
1
:
0
;
*
num_left_les
=
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
?
1
:
0
;
goto
exit
;
}
case
SPLIT_EVENLY
:
{
...
...
@@ -708,7 +708,7 @@ ftleaf_get_split_loc(
uint32_t
size_so_far
=
0
;
for
(
int
i
=
0
;
i
<
node
->
n_children
;
i
++
)
{
bn_data
*
bd
=
BLB_DATA
(
node
,
i
);
uint32_t
n_leafentries
=
bd
->
dmt_size
();
uint32_t
n_leafentries
=
bd
->
num_klpairs
();
for
(
uint32_t
j
=
0
;
j
<
n_leafentries
;
j
++
)
{
size_t
size_this_le
;
int
rr
=
bd
->
fetch_klpair_disksize
(
j
,
&
size_this_le
);
...
...
@@ -725,7 +725,7 @@ ftleaf_get_split_loc(
(
*
num_left_les
)
--
;
}
else
if
(
*
num_left_bns
>
1
)
{
(
*
num_left_bns
)
--
;
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
dmt_size
();
*
num_left_les
=
BLB_DATA
(
node
,
*
num_left_bns
-
1
)
->
num_klpairs
();
}
else
{
// we are trying to split a leaf with only one
// leafentry in it
...
...
@@ -754,7 +754,7 @@ move_leafentries(
)
//Effect: move leafentries in the range [lbi, upe) from src_omt to newly created dest_omt
{
invariant
(
ube
==
src_bn
->
data_buffer
.
dmt_size
());
invariant
(
ube
==
src_bn
->
data_buffer
.
num_klpairs
());
src_bn
->
data_buffer
.
split_klpairs
(
&
dest_bn
->
data_buffer
,
lbi
);
}
...
...
@@ -852,7 +852,7 @@ ftleaf_split(
ftleaf_get_split_loc
(
node
,
split_mode
,
&
num_left_bns
,
&
num_left_les
);
{
// did we split right on the boundary between basement nodes?
const
bool
split_on_boundary
=
(
num_left_les
==
0
)
||
(
num_left_les
==
(
int
)
BLB_DATA
(
node
,
num_left_bns
-
1
)
->
dmt_size
());
const
bool
split_on_boundary
=
(
num_left_les
==
0
)
||
(
num_left_les
==
(
int
)
BLB_DATA
(
node
,
num_left_bns
-
1
)
->
num_klpairs
());
// Now we know where we are going to break it
// the two nodes will have a total of n_children+1 basement nodes
// and n_children-1 pivots
...
...
@@ -913,7 +913,7 @@ ftleaf_split(
move_leafentries
(
BLB
(
B
,
curr_dest_bn_index
),
BLB
(
node
,
curr_src_bn_index
),
num_left_les
,
// first row to be moved to B
BLB_DATA
(
node
,
curr_src_bn_index
)
->
dmt_size
()
// number of rows in basement to be split
BLB_DATA
(
node
,
curr_src_bn_index
)
->
num_klpairs
()
// number of rows in basement to be split
);
BLB_MAX_MSN_APPLIED
(
B
,
curr_dest_bn_index
)
=
BLB_MAX_MSN_APPLIED
(
node
,
curr_src_bn_index
);
curr_dest_bn_index
++
;
...
...
@@ -958,7 +958,7 @@ ftleaf_split(
bn_data
*
bd
=
BLB_DATA
(
node
,
num_left_bns
-
1
);
uint32_t
keylen
;
void
*
key
;
int
rr
=
bd
->
fetch_key_and_len
(
bd
->
dmt_size
()
-
1
,
&
keylen
,
&
key
);
int
rr
=
bd
->
fetch_key_and_len
(
bd
->
num_klpairs
()
-
1
,
&
keylen
,
&
key
);
invariant_zero
(
rr
);
toku_memdup_dbt
(
splitk
,
key
,
keylen
);
}
...
...
@@ -1173,7 +1173,7 @@ merge_leaf_nodes(FTNODE a, FTNODE b)
// this bool states if the last basement node in a has any items or not
// If it does, then it stays in the merge. If it does not, the last basement node
// of a gets eliminated because we do not have a pivot to store for it (because it has no elements)
const
bool
a_has_tail
=
a_last_bd
->
dmt_size
()
>
0
;
const
bool
a_has_tail
=
a_last_bd
->
num_klpairs
()
>
0
;
// move each basement node from b to a
// move the pivots, adding one of what used to be max(a)
...
...
@@ -1200,7 +1200,7 @@ merge_leaf_nodes(FTNODE a, FTNODE b)
if
(
a_has_tail
)
{
uint32_t
keylen
;
void
*
key
;
int
rr
=
a_last_bd
->
fetch_key_and_len
(
a_last_bd
->
dmt_size
()
-
1
,
&
keylen
,
&
key
);
int
rr
=
a_last_bd
->
fetch_key_and_len
(
a_last_bd
->
num_klpairs
()
-
1
,
&
keylen
,
&
key
);
invariant_zero
(
rr
);
toku_memdup_dbt
(
&
a
->
childkeys
[
a
->
n_children
-
1
],
key
,
keylen
);
a
->
totalchildkeylens
+=
keylen
;
...
...
ft/ft-ops.cc
View file @
a5e7b6ac
...
...
@@ -419,7 +419,7 @@ get_leaf_num_entries(FTNODE node) {
int
i
;
toku_assert_entire_node_in_memory
(
node
);
for
(
i
=
0
;
i
<
node
->
n_children
;
i
++
)
{
result
+=
BLB_DATA
(
node
,
i
)
->
dmt_size
();
result
+=
BLB_DATA
(
node
,
i
)
->
num_klpairs
();
}
return
result
;
}
...
...
@@ -1910,7 +1910,7 @@ toku_ft_bn_apply_cmd (
void
*
key
=
NULL
;
uint32_t
keylen
=
0
;
uint32_t
dmt_size
;
uint32_t
num_klpairs
;
int
r
;
struct
cmd_leafval_heaviside_extra
be
=
{
compare_fun
,
desc
,
cmd
->
u
.
id
.
key
};
...
...
@@ -1922,7 +1922,7 @@ toku_ft_bn_apply_cmd (
case
FT_INSERT
:
{
uint32_t
idx
;
if
(
doing_seqinsert
)
{
idx
=
bn
->
data_buffer
.
dmt_size
();
idx
=
bn
->
data_buffer
.
num_klpairs
();
DBT
kdbt
;
r
=
bn
->
data_buffer
.
fetch_key_and_len
(
idx
-
1
,
&
kdbt
.
size
,
&
kdbt
.
data
);
if
(
r
!=
0
)
goto
fz
;
...
...
@@ -1950,7 +1950,7 @@ toku_ft_bn_apply_cmd (
// the leaf then it is sequential
// window = min(32, number of leaf entries/16)
{
uint32_t
s
=
bn
->
data_buffer
.
dmt_size
();
uint32_t
s
=
bn
->
data_buffer
.
num_klpairs
();
uint32_t
w
=
s
/
16
;
if
(
w
==
0
)
w
=
1
;
if
(
w
>
32
)
w
=
32
;
...
...
@@ -1985,8 +1985,8 @@ toku_ft_bn_apply_cmd (
case
FT_COMMIT_BROADCAST_ALL
:
case
FT_OPTIMIZE
:
// Apply to all leafentries
dmt_size
=
bn
->
data_buffer
.
dmt_size
();
for
(
uint32_t
idx
=
0
;
idx
<
dmt_size
;
)
{
num_klpairs
=
bn
->
data_buffer
.
num_klpairs
();
for
(
uint32_t
idx
=
0
;
idx
<
num_klpairs
;
)
{
DBT
curr_keydbt
;
void
*
curr_keyp
=
NULL
;
uint32_t
curr_keylen
=
0
;
...
...
@@ -2000,26 +2000,26 @@ toku_ft_bn_apply_cmd (
if
(
!
le_is_clean
(
storeddata
))
{
//If already clean, nothing to do.
toku_ft_bn_apply_cmd_once
(
bn
,
cmd
,
idx
,
storeddata
,
oldest_referenced_xid_known
,
gc_info
,
workdone
,
stats_to_update
);
// at this point, we cannot trust cmd->u.id.key to be valid.
uint32_t
new_dmt_size
=
bn
->
data_buffer
.
dmt_size
();
if
(
new_dmt_size
!=
dmt_size
)
{
paranoid_invariant
(
new_dmt_size
+
1
==
dmt_size
);
uint32_t
new_dmt_size
=
bn
->
data_buffer
.
num_klpairs
();
if
(
new_dmt_size
!=
num_klpairs
)
{
paranoid_invariant
(
new_dmt_size
+
1
==
num_klpairs
);
//Item was deleted.
deleted
=
1
;
}
}
if
(
deleted
)
dmt_size
--
;
num_klpairs
--
;
else
idx
++
;
}
paranoid_invariant
(
bn
->
data_buffer
.
dmt_size
()
==
dmt_size
);
paranoid_invariant
(
bn
->
data_buffer
.
num_klpairs
()
==
num_klpairs
);
break
;
case
FT_COMMIT_BROADCAST_TXN
:
case
FT_ABORT_BROADCAST_TXN
:
// Apply to all leafentries if txn is represented
dmt_size
=
bn
->
data_buffer
.
dmt_size
();
for
(
uint32_t
idx
=
0
;
idx
<
dmt_size
;
)
{
num_klpairs
=
bn
->
data_buffer
.
num_klpairs
();
for
(
uint32_t
idx
=
0
;
idx
<
num_klpairs
;
)
{
DBT
curr_keydbt
;
void
*
curr_keyp
=
NULL
;
uint32_t
curr_keylen
=
0
;
...
...
@@ -2032,19 +2032,19 @@ toku_ft_bn_apply_cmd (
int
deleted
=
0
;
if
(
le_has_xids
(
storeddata
,
cmd
->
xids
))
{
toku_ft_bn_apply_cmd_once
(
bn
,
cmd
,
idx
,
storeddata
,
oldest_referenced_xid_known
,
gc_info
,
workdone
,
stats_to_update
);
uint32_t
new_dmt_size
=
bn
->
data_buffer
.
dmt_size
();
if
(
new_dmt_size
!=
dmt_size
)
{
paranoid_invariant
(
new_dmt_size
+
1
==
dmt_size
);
uint32_t
new_dmt_size
=
bn
->
data_buffer
.
num_klpairs
();
if
(
new_dmt_size
!=
num_klpairs
)
{
paranoid_invariant
(
new_dmt_size
+
1
==
num_klpairs
);
//Item was deleted.
deleted
=
1
;
}
}
if
(
deleted
)
dmt_size
--
;
num_klpairs
--
;
else
idx
++
;
}
paranoid_invariant
(
bn
->
data_buffer
.
dmt_size
()
==
dmt_size
);
paranoid_invariant
(
bn
->
data_buffer
.
num_klpairs
()
==
num_klpairs
);
break
;
case
FT_UPDATE
:
{
...
...
@@ -2073,7 +2073,7 @@ toku_ft_bn_apply_cmd (
// apply to all leafentries.
uint32_t
idx
=
0
;
uint32_t
num_leafentries_before
;
while
(
idx
<
(
num_leafentries_before
=
bn
->
data_buffer
.
dmt_size
()))
{
while
(
idx
<
(
num_leafentries_before
=
bn
->
data_buffer
.
num_klpairs
()))
{
void
*
curr_key
=
nullptr
;
uint32_t
curr_keylen
=
0
;
r
=
bn
->
data_buffer
.
fetch_klpair
(
idx
,
&
storeddata
,
&
curr_keylen
,
&
curr_key
);
...
...
@@ -2091,7 +2091,7 @@ toku_ft_bn_apply_cmd (
r
=
do_update
(
update_fun
,
desc
,
bn
,
cmd
,
idx
,
storeddata
,
curr_key
,
curr_keylen
,
oldest_referenced_xid_known
,
gc_info
,
workdone
,
stats_to_update
);
assert_zero
(
r
);
if
(
num_leafentries_before
==
bn
->
data_buffer
.
dmt_size
())
{
if
(
num_leafentries_before
==
bn
->
data_buffer
.
num_klpairs
())
{
// we didn't delete something, so increment the index.
idx
++
;
}
...
...
@@ -2404,7 +2404,7 @@ basement_node_gc_all_les(BASEMENTNODE bn,
int
r
=
0
;
uint32_t
index
=
0
;
uint32_t
num_leafentries_before
;
while
(
index
<
(
num_leafentries_before
=
bn
->
data_buffer
.
dmt_size
()))
{
while
(
index
<
(
num_leafentries_before
=
bn
->
data_buffer
.
num_klpairs
()))
{
void
*
keyp
=
NULL
;
uint32_t
keylen
=
0
;
LEAFENTRY
leaf_entry
;
...
...
@@ -2423,7 +2423,7 @@ basement_node_gc_all_les(BASEMENTNODE bn,
delta
);
// Check if the leaf entry was deleted or not.
if
(
num_leafentries_before
==
bn
->
data_buffer
.
dmt_size
())
{
if
(
num_leafentries_before
==
bn
->
data_buffer
.
num_klpairs
())
{
++
index
;
}
}
...
...
@@ -4929,7 +4929,7 @@ ok: ;
switch
(
search
->
direction
)
{
case
FT_SEARCH_LEFT
:
idx
++
;
if
(
idx
>=
bn
->
data_buffer
.
dmt_size
())
{
if
(
idx
>=
bn
->
data_buffer
.
num_klpairs
())
{
if
(
ftcursor
->
interrupt_cb
&&
ftcursor
->
interrupt_cb
(
ftcursor
->
interrupt_cb_extra
))
{
return
TOKUDB_INTERRUPTED
;
}
...
...
@@ -5604,7 +5604,7 @@ ft_cursor_shortcut (
int
r
=
0
;
// if we are searching towards the end, limit is last element
// if we are searching towards the beginning, limit is the first element
uint32_t
limit
=
(
direction
>
0
)
?
(
bd
->
dmt_size
()
-
1
)
:
0
;
uint32_t
limit
=
(
direction
>
0
)
?
(
bd
->
num_klpairs
()
-
1
)
:
0
;
//Starting with the prev, find the first real (non-provdel) leafentry.
while
(
index
!=
limit
)
{
...
...
@@ -5895,7 +5895,7 @@ keysrange_in_leaf_partition (FT_HANDLE brt, FTNODE node,
*
less
=
idx_left
;
*
equal_left
=
(
r
==
0
)
?
1
:
0
;
uint32_t
size
=
bn
->
data_buffer
.
dmt_size
();
uint32_t
size
=
bn
->
data_buffer
.
num_klpairs
();
uint32_t
idx_right
=
size
;
r
=
-
1
;
if
(
single_basement
&&
key_right
)
{
...
...
@@ -6155,7 +6155,7 @@ static int get_key_after_bytes_in_basementnode(FT ft, BASEMENTNODE bn, const DBT
assert
(
r
==
0
||
r
==
DB_NOTFOUND
);
}
struct
get_key_after_bytes_iterate_extra
iter_extra
=
{
skip_len
,
skipped
,
callback
,
cb_extra
};
r
=
bn
->
data_buffer
.
dmt_iterate_on_range
<
get_key_after_bytes_iterate_extra
,
get_key_after_bytes_iterate
>
(
idx_left
,
bn
->
data_buffer
.
dmt_size
(),
&
iter_extra
);
r
=
bn
->
data_buffer
.
iterate_on_range
<
get_key_after_bytes_iterate_extra
,
get_key_after_bytes_iterate
>
(
idx_left
,
bn
->
data_buffer
.
num_klpairs
(),
&
iter_extra
);
// Invert the sense of r == 0 (meaning the iterate finished, which means we didn't find what we wanted)
if
(
r
==
1
)
{
...
...
@@ -6351,7 +6351,7 @@ toku_dump_ftnode (FILE *file, FT_HANDLE brt, BLOCKNUM blocknum, int depth, const
});
}
else
{
int
size
=
BLB_DATA
(
node
,
i
)
->
dmt_size
();
int
size
=
BLB_DATA
(
node
,
i
)
->
num_klpairs
();
if
(
0
)
for
(
int
j
=
0
;
j
<
size
;
j
++
)
{
LEAFENTRY
le
;
...
...
@@ -6533,7 +6533,7 @@ static bool is_empty_fast_iter (FT_HANDLE brt, FTNODE node) {
}
else
{
// leaf: If the dmt is empty, we are happy.
for
(
int
i
=
0
;
i
<
node
->
n_children
;
i
++
)
{
if
(
BLB_DATA
(
node
,
i
)
->
dmt_size
())
{
if
(
BLB_DATA
(
node
,
i
)
->
num_klpairs
())
{
return
false
;
}
}
...
...
ft/ft-verify.cc
View file @
a5e7b6ac
...
...
@@ -424,7 +424,7 @@ toku_verify_ftnode_internal(FT_HANDLE brt,
}
else
{
BASEMENTNODE
bn
=
BLB
(
node
,
i
);
for
(
uint32_t
j
=
0
;
j
<
bn
->
data_buffer
.
dmt_size
();
j
++
)
{
for
(
uint32_t
j
=
0
;
j
<
bn
->
data_buffer
.
num_klpairs
();
j
++
)
{
VERIFY_ASSERTION
((
rootmsn
.
msn
>=
this_msn
.
msn
),
0
,
"leaf may have latest msn, but cannot be greater than root msn"
);
DBT
kdbt
=
get_ith_key_dbt
(
bn
,
j
);
if
(
curr_less_pivot
)
{
...
...
ft/ft.cc
View file @
a5e7b6ac
...
...
@@ -1078,7 +1078,7 @@ garbage_helper(BLOCKNUM blocknum, int64_t UU(size), int64_t UU(address), void *e
}
for
(
int
i
=
0
;
i
<
node
->
n_children
;
++
i
)
{
bn_data
*
bd
=
BLB_DATA
(
node
,
i
);
r
=
bd
->
dmt_
iterate
<
struct
garbage_helper_extra
,
garbage_leafentry_helper
>
(
info
);
r
=
bd
->
iterate
<
struct
garbage_helper_extra
,
garbage_leafentry_helper
>
(
info
);
if
(
r
!=
0
)
{
goto
exit
;
}
...
...
ft/ft_node-serialize.cc
View file @
a5e7b6ac
...
...
@@ -353,7 +353,7 @@ serialize_ftnode_partition(FTNODE node, int i, struct sub_block *sb) {
bn_data
*
bd
=
BLB_DATA
(
node
,
i
);
wbuf_nocrc_char
(
&
wb
,
ch
);
wbuf_nocrc_uint
(
&
wb
,
bd
->
dmt_size
());
wbuf_nocrc_uint
(
&
wb
,
bd
->
num_klpairs
());
bd
->
serialize_to_wbuf
(
&
wb
);
}
...
...
@@ -518,7 +518,7 @@ rebalance_ftnode_leaf(FTNODE node, unsigned int basementnodesize)
// Count number of leaf entries in this leaf (num_le).
uint32_t
num_le
=
0
;
for
(
uint32_t
i
=
0
;
i
<
num_orig_basements
;
i
++
)
{
num_le
+=
BLB_DATA
(
node
,
i
)
->
dmt_size
();
num_le
+=
BLB_DATA
(
node
,
i
)
->
num_klpairs
();
}
uint32_t
num_alloc
=
num_le
?
num_le
:
1
;
// simplify logic below by always having at least one entry per array
...
...
@@ -545,8 +545,8 @@ rebalance_ftnode_leaf(FTNODE node, unsigned int basementnodesize)
for
(
uint32_t
i
=
0
;
i
<
num_orig_basements
;
i
++
)
{
bn_data
*
bd
=
BLB_DATA
(
node
,
i
);
struct
array_info
ai
{.
offset
=
curr_le
,
.
le_array
=
leafpointers
,
.
key_sizes_array
=
key_sizes
,
.
key_ptr_array
=
key_pointers
};
bd
->
dmt_
iterate
<
array_info
,
array_item
>
(
&
ai
);
curr_le
+=
bd
->
dmt_size
();
bd
->
iterate
<
array_info
,
array_item
>
(
&
ai
);
curr_le
+=
bd
->
num_klpairs
();
}
// Create an array that will store indexes of new pivots.
...
...
ft/ftloader.cc
View file @
a5e7b6ac
...
...
@@ -2917,7 +2917,7 @@ static void add_pair_to_leafnode (struct leaf_buf *lbuf, unsigned char *key, int
// #3588 TODO just make a clean ule and append it to the omt
// #3588 TODO can do the rebalancing here and avoid a lot of work later
FTNODE
leafnode
=
lbuf
->
node
;
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
DBT
thekey
=
{
.
data
=
key
,
.
size
=
(
uint32_t
)
keylen
};
DBT
theval
=
{
.
data
=
val
,
.
size
=
(
uint32_t
)
vallen
};
FT_MSG_S
cmd
=
{
.
type
=
FT_INSERT
,
...
...
ft/tests/ft-serialize-test.cc
View file @
a5e7b6ac
...
...
@@ -362,7 +362,7 @@ test_serialize_leaf_check_msn(enum ftnode_verify_type bft, bool do_clone) {
if
(
bn
>
0
)
{
assert
(
dest_ndd
[
bn
].
start
>=
dest_ndd
[
bn
-
1
].
start
+
dest_ndd
[
bn
-
1
].
size
);
}
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
dmt_size
();
i
++
)
{
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
();
i
++
)
{
LEAFENTRY
curr_le
;
uint32_t
curr_keylen
;
void
*
curr_key
;
...
...
@@ -504,8 +504,8 @@ test_serialize_leaf_with_large_pivots(enum ftnode_verify_type bft, bool do_clone
if
(
bn
>
0
)
{
assert
(
dest_ndd
[
bn
].
start
>=
dest_ndd
[
bn
-
1
].
start
+
dest_ndd
[
bn
-
1
].
size
);
}
assert
(
BLB_DATA
(
dn
,
bn
)
->
dmt_size
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
dmt_size
();
i
++
)
{
assert
(
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
();
i
++
)
{
LEAFENTRY
curr_le
;
uint32_t
curr_keylen
;
void
*
curr_key
;
...
...
@@ -636,8 +636,8 @@ test_serialize_leaf_with_many_rows(enum ftnode_verify_type bft, bool do_clone) {
if
(
bn
>
0
)
{
assert
(
dest_ndd
[
bn
].
start
>=
dest_ndd
[
bn
-
1
].
start
+
dest_ndd
[
bn
-
1
].
size
);
}
assert
(
BLB_DATA
(
dn
,
bn
)
->
dmt_size
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
dmt_size
();
i
++
)
{
assert
(
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
();
i
++
)
{
LEAFENTRY
curr_le
;
uint32_t
curr_keylen
;
void
*
curr_key
;
...
...
@@ -786,8 +786,8 @@ test_serialize_leaf_with_large_rows(enum ftnode_verify_type bft, bool do_clone)
if
(
bn
>
0
)
{
assert
(
dest_ndd
[
bn
].
start
>=
dest_ndd
[
bn
-
1
].
start
+
dest_ndd
[
bn
-
1
].
size
);
}
assert
(
BLB_DATA
(
dn
,
bn
)
->
dmt_size
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
dmt_size
();
i
++
)
{
assert
(
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
()
>
0
);
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
();
i
++
)
{
LEAFENTRY
curr_le
;
uint32_t
curr_keylen
;
void
*
curr_key
;
...
...
@@ -924,7 +924,7 @@ test_serialize_leaf_with_empty_basement_nodes(enum ftnode_verify_type bft, bool
if
(
bn
>
0
)
{
assert
(
dest_ndd
[
bn
].
start
>=
dest_ndd
[
bn
-
1
].
start
+
dest_ndd
[
bn
-
1
].
size
);
}
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
dmt_size
();
i
++
)
{
for
(
uint32_t
i
=
0
;
i
<
BLB_DATA
(
dn
,
bn
)
->
num_klpairs
();
i
++
)
{
LEAFENTRY
curr_le
;
uint32_t
curr_keylen
;
void
*
curr_key
;
...
...
@@ -1045,7 +1045,7 @@ test_serialize_leaf_with_multiple_empty_basement_nodes(enum ftnode_verify_type b
if
(
i
>
0
)
{
assert
(
dest_ndd
[
i
].
start
>=
dest_ndd
[
i
-
1
].
start
+
dest_ndd
[
i
-
1
].
size
);
}
assert
(
BLB_DATA
(
dn
,
i
)
->
dmt_size
()
==
0
);
assert
(
BLB_DATA
(
dn
,
i
)
->
num_klpairs
()
==
0
);
}
}
toku_ftnode_free
(
&
dn
);
...
...
ft/tests/make-tree.cc
View file @
a5e7b6ac
...
...
@@ -119,7 +119,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/orthopush-flush.cc
View file @
a5e7b6ac
...
...
@@ -733,7 +733,7 @@ flush_to_leaf(FT_HANDLE t, bool make_leaf_up_to_date, bool use_flush) {
int
total_messages
=
0
;
for
(
i
=
0
;
i
<
8
;
++
i
)
{
total_messages
+=
BLB_DATA
(
child
,
i
)
->
dmt_size
();
total_messages
+=
BLB_DATA
(
child
,
i
)
->
num_klpairs
();
}
assert
(
total_messages
<=
num_parent_messages
+
num_child_messages
);
...
...
@@ -746,7 +746,7 @@ flush_to_leaf(FT_HANDLE t, bool make_leaf_up_to_date, bool use_flush) {
memset
(
parent_messages_present
,
0
,
sizeof
parent_messages_present
);
memset
(
child_messages_present
,
0
,
sizeof
child_messages_present
);
for
(
int
j
=
0
;
j
<
8
;
++
j
)
{
uint32_t
len
=
BLB_DATA
(
child
,
j
)
->
dmt_size
();
uint32_t
len
=
BLB_DATA
(
child
,
j
)
->
num_klpairs
();
for
(
uint32_t
idx
=
0
;
idx
<
len
;
++
idx
)
{
LEAFENTRY
le
;
DBT
keydbt
,
valdbt
;
...
...
@@ -968,7 +968,7 @@ flush_to_leaf_with_keyrange(FT_HANDLE t, bool make_leaf_up_to_date) {
int
total_messages
=
0
;
for
(
i
=
0
;
i
<
8
;
++
i
)
{
total_messages
+=
BLB_DATA
(
child
,
i
)
->
dmt_size
();
total_messages
+=
BLB_DATA
(
child
,
i
)
->
num_klpairs
();
}
assert
(
total_messages
<=
num_parent_messages
+
num_child_messages
);
...
...
@@ -1146,8 +1146,8 @@ compare_apply_and_flush(FT_HANDLE t, bool make_leaf_up_to_date) {
for
(
int
j
=
0
;
j
<
8
;
++
j
)
{
bn_data
*
first
=
BLB_DATA
(
child1
,
j
);
bn_data
*
second
=
BLB_DATA
(
child2
,
j
);
uint32_t
len
=
first
->
dmt_size
();
assert
(
len
==
second
->
dmt_size
());
uint32_t
len
=
first
->
num_klpairs
();
assert
(
len
==
second
->
num_klpairs
());
for
(
uint32_t
idx
=
0
;
idx
<
len
;
++
idx
)
{
LEAFENTRY
le1
,
le2
;
DBT
key1dbt
,
val1dbt
,
key2dbt
,
val2dbt
;
...
...
ft/tests/test-checkpoint-during-merge.cc
View file @
a5e7b6ac
...
...
@@ -348,7 +348,7 @@ doit (int state) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
1
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
toku_pin_ftnode_off_client_thread
(
...
...
@@ -364,7 +364,7 @@ doit (int state) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
1
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
}
else
if
(
state
==
ft_flush_aflter_merge
||
state
==
flt_flush_before_unpin_remove
)
{
...
...
@@ -381,7 +381,7 @@ doit (int state) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
2
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
2
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
}
else
{
...
...
ft/tests/test-checkpoint-during-rebalance.cc
View file @
a5e7b6ac
...
...
@@ -359,7 +359,7 @@ doit (int state) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
2
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
2
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
toku_pin_ftnode_off_client_thread
(
...
...
@@ -375,7 +375,7 @@ doit (int state) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
2
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
2
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
...
...
ft/tests/test-checkpoint-during-split.cc
View file @
a5e7b6ac
...
...
@@ -342,7 +342,7 @@ doit (bool after_split) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
1
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
toku_pin_ftnode_off_client_thread
(
...
...
@@ -358,7 +358,7 @@ doit (bool after_split) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
1
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
}
else
{
...
...
@@ -375,7 +375,7 @@ doit (bool after_split) {
assert
(
node
->
height
==
0
);
assert
(
!
node
->
dirty
);
assert
(
node
->
n_children
==
1
);
assert
(
BLB_DATA
(
node
,
0
)
->
dmt_size
()
==
2
);
assert
(
BLB_DATA
(
node
,
0
)
->
num_klpairs
()
==
2
);
toku_unpin_ftnode_off_client_thread
(
c_ft
->
ft
,
node
);
}
...
...
ft/tests/verify-bad-msn.cc
View file @
a5e7b6ac
...
...
@@ -122,7 +122,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-bad-pivots.cc
View file @
a5e7b6ac
...
...
@@ -111,7 +111,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-dup-in-leaf.cc
View file @
a5e7b6ac
...
...
@@ -112,7 +112,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-dup-pivots.cc
View file @
a5e7b6ac
...
...
@@ -111,7 +111,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-misrouted-msgs.cc
View file @
a5e7b6ac
...
...
@@ -112,7 +112,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-unsorted-leaf.cc
View file @
a5e7b6ac
...
...
@@ -114,7 +114,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tests/verify-unsorted-pivots.cc
View file @
a5e7b6ac
...
...
@@ -111,7 +111,7 @@ append_leaf(FTNODE leafnode, void *key, size_t keylen, void *val, size_t vallen)
DBT
theval
;
toku_fill_dbt
(
&
theval
,
val
,
vallen
);
// get an index that we can use to create a new leaf entry
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
dmt_size
();
uint32_t
idx
=
BLB_DATA
(
leafnode
,
0
)
->
num_klpairs
();
// apply an insert to the leaf node
MSN
msn
=
next_dummymsn
();
...
...
ft/tokuftdump.cc
View file @
a5e7b6ac
...
...
@@ -315,9 +315,9 @@ dump_node (int f, BLOCKNUM blocknum, FT h) {
}
}
else
{
printf
(
" n_bytes_in_buffer= %"
PRIu64
""
,
BLB_DATA
(
n
,
i
)
->
get_disk_size
());
printf
(
" items_in_buffer=%u
\n
"
,
BLB_DATA
(
n
,
i
)
->
dmt_size
());
printf
(
" items_in_buffer=%u
\n
"
,
BLB_DATA
(
n
,
i
)
->
num_klpairs
());
if
(
dump_data
)
{
BLB_DATA
(
n
,
i
)
->
dmt_
iterate
<
void
,
print_le
>
(
NULL
);
BLB_DATA
(
n
,
i
)
->
iterate
<
void
,
print_le
>
(
NULL
);
}
}
}
...
...
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