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Kirill Smelkov
mariadb
Commits
eec2835d
Commit
eec2835d
authored
Jun 16, 2004
by
unknown
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tux optim 2 - use physical TUP address for index nodes
parent
0300c895
Changes
9
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9 changed files
with
403 additions
and
336 deletions
+403
-336
ndb/include/kernel/signaldata/TupAccess.hpp
ndb/include/kernel/signaldata/TupAccess.hpp
+4
-2
ndb/src/kernel/blocks/dbtux/Dbtux.hpp
ndb/src/kernel/blocks/dbtux/Dbtux.hpp
+222
-176
ndb/src/kernel/blocks/dbtux/DbtuxDebug.cpp
ndb/src/kernel/blocks/dbtux/DbtuxDebug.cpp
+28
-13
ndb/src/kernel/blocks/dbtux/DbtuxMaint.cpp
ndb/src/kernel/blocks/dbtux/DbtuxMaint.cpp
+7
-10
ndb/src/kernel/blocks/dbtux/DbtuxMeta.cpp
ndb/src/kernel/blocks/dbtux/DbtuxMeta.cpp
+3
-2
ndb/src/kernel/blocks/dbtux/DbtuxNode.cpp
ndb/src/kernel/blocks/dbtux/DbtuxNode.cpp
+13
-13
ndb/src/kernel/blocks/dbtux/DbtuxScan.cpp
ndb/src/kernel/blocks/dbtux/DbtuxScan.cpp
+28
-28
ndb/src/kernel/blocks/dbtux/DbtuxTree.cpp
ndb/src/kernel/blocks/dbtux/DbtuxTree.cpp
+89
-90
ndb/src/kernel/blocks/dbtux/Times.txt
ndb/src/kernel/blocks/dbtux/Times.txt
+9
-2
No files found.
ndb/include/kernel/signaldata/TupAccess.hpp
View file @
eec2835d
...
...
@@ -129,6 +129,8 @@ private:
/*
* Operate on entire tuple. Used by TUX where the table has a single
* Uint32 array attribute representing an index tree node.
*
* XXX this signal will be replaced by method in TUP
*/
class
TupStoreTh
{
friend
class
Dbtup
;
...
...
@@ -153,8 +155,8 @@ private:
Uint32
tableId
;
Uint32
fragId
;
Uint32
fragPtrI
;
Uint32
tupAddr
;
Uint32
tupVersion
;
Uint32
tupAddr
;
// no longer used
Uint32
tupVersion
;
// no longer used
Uint32
pageId
;
Uint32
pageOffset
;
Uint32
bufferId
;
...
...
ndb/src/kernel/blocks/dbtux/Dbtux.hpp
View file @
eec2835d
...
...
@@ -153,8 +153,7 @@ private:
static
const
unsigned
AttributeHeaderSize
=
1
;
/*
* Logical tuple address, "local key". Identifies both table tuples
* and index tuples. The code assumes it is one word.
* Logical tuple address, "local key". Identifies table tuples.
*/
typedef
Uint32
TupAddr
;
static
const
unsigned
NullTupAddr
=
(
Uint32
)
-
1
;
...
...
@@ -168,8 +167,18 @@ private:
Uint32
m_pageId
;
// page i-value
Uint16
m_pageOffset
;
// page offset in words
TupLoc
();
TupLoc
(
Uint32
pageId
,
Uint16
pageOffset
);
bool
operator
==
(
const
TupLoc
&
loc
)
const
;
bool
operator
!=
(
const
TupLoc
&
loc
)
const
;
};
/*
* There is no const variable NullTupLoc since the compiler may not be
* able to optimize it to TupLoc() constants. Instead null values are
* constructed on the stack with TupLoc().
*/
#define NullTupLoc TupLoc()
// tree definitions
/*
...
...
@@ -183,7 +192,7 @@ private:
TupAddr
m_tupAddr
;
// address of original tuple
Uint16
m_tupVersion
;
// version
Uint8
m_fragBit
;
// which duplicated table fragment
Uint8
unuse
d1
;
Uint8
pa
d1
;
TreeEnt
();
// methods
int
cmp
(
const
TreeEnt
ent
)
const
;
...
...
@@ -196,7 +205,7 @@ private:
* prefix 3) max and min entries 4) rest of entries 5) one extra entry
* used as work space.
*
* struct TreeNode part 1
* struct TreeNode part 1
, size 6 words
* min prefix part 2, size TreeHead::m_prefSize
* max prefix part 2, size TreeHead::m_prefSize
* max entry part 3
...
...
@@ -204,6 +213,10 @@ private:
* rest of entries part 4
* work entry part 5
*
* There are 3 links to other nodes: left child, right child, parent.
* These are in TupLoc format but the pageIds and pageOffsets are
* stored in separate arrays (saves 1 word).
*
* Occupancy (number of entries) is at least 1 except temporarily when
* a node is about to be removed. If occupancy is 1, only max entry
* is present but both min and max prefixes are set.
...
...
@@ -211,11 +224,12 @@ private:
struct
TreeNode
;
friend
struct
TreeNode
;
struct
TreeNode
{
TupAddr
m_link
[
3
];
// link to 0-left child 1-right child 2-parent
Uint8
m_side
;
// we are 0-left child 1-right child 2-root
Uint32
m_linkPI
[
3
];
// link to 0-left child 1-right child 2-parent
Uint16
m_linkPO
[
3
];
// page offsets for above real page ids
unsigned
m_side
:
2
;
// we are 0-left child 1-right child 2-root
int
m_balance
:
2
;
// balance -1, 0, +1
unsigned
pad1
:
4
;
Uint8
m_occup
;
// current number of entries
Int8
m_balance
;
// balance -1, 0, +1
Uint8
unused1
;
Uint32
m_nodeScan
;
// list of scans at this node
TreeNode
();
};
...
...
@@ -243,7 +257,7 @@ private:
Uint8
m_prefSize
;
// words in min/max prefix each
Uint8
m_minOccup
;
// min entries in internal node
Uint8
m_maxOccup
;
// max entries in node
Tup
Addr
m_root
;
// root node
Tup
Loc
m_root
;
// root node
TreeHead
();
// methods
unsigned
getSize
(
AccSize
acc
)
const
;
...
...
@@ -261,8 +275,7 @@ private:
struct
TreePos
;
friend
struct
TreePos
;
struct
TreePos
{
TupAddr
m_addr
;
// logical node address
TupLoc
m_loc
;
// physical address
TupLoc
m_loc
;
// physical node address
Uint16
m_pos
;
// position 0 to m_occup
Uint8
m_match
;
// at an existing entry
Uint8
m_dir
;
// from link (0-2) or within node (3)
...
...
@@ -494,7 +507,6 @@ private:
};
Dbtux
&
m_tux
;
// this block
Frag
&
m_frag
;
// fragment using the node
TupAddr
m_addr
;
// logical node address
TupLoc
m_loc
;
// physical node address
AccSize
m_acc
;
// accessed size
unsigned
m_flags
;
// flags
...
...
@@ -506,7 +518,7 @@ private:
Uint32
m_cache
[
MaxTreeNodeSize
];
NodeHandle
(
Dbtux
&
tux
,
Frag
&
frag
);
// getters
Tup
Addr
getLink
(
unsigned
i
);
Tup
Loc
getLink
(
unsigned
i
);
unsigned
getChilds
();
// cannot spell
unsigned
getSide
();
unsigned
getOccup
();
...
...
@@ -516,7 +528,7 @@ private:
TreeEnt
getEnt
(
unsigned
pos
);
TreeEnt
getMinMax
(
unsigned
i
);
// setters
void
setLink
(
unsigned
i
,
Tup
Addr
addr
);
void
setLink
(
unsigned
i
,
Tup
Loc
loc
);
void
setSide
(
unsigned
i
);
void
setOccup
(
unsigned
n
);
void
setBalance
(
int
b
);
...
...
@@ -652,8 +664,8 @@ private:
*/
void
seizeNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
);
void
preallocNode
(
Signal
*
signal
,
Frag
&
frag
,
Uint32
&
errorCode
);
void
findNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Addr
addr
);
void
selectNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Addr
addr
,
AccSize
acc
);
void
findNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Loc
loc
);
void
selectNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Loc
loc
,
AccSize
acc
);
void
insertNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
AccSize
acc
);
void
deleteNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
);
void
accessNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
AccSize
acc
);
...
...
@@ -701,23 +713,24 @@ private:
struct
PrintPar
{
char
m_path
[
100
];
// LR prefix
unsigned
m_side
;
// expected side
Tup
Addr
m_parent
;
// expected parent address
Tup
Loc
m_parent
;
// expected parent address
int
m_depth
;
// returned depth
unsigned
m_occup
;
// returned occupancy
bool
m_ok
;
// returned status
PrintPar
();
};
void
printTree
(
Signal
*
signal
,
Frag
&
frag
,
NdbOut
&
out
);
void
printNode
(
Signal
*
signal
,
Frag
&
frag
,
NdbOut
&
out
,
TupAddr
addr
,
PrintPar
&
par
);
void
printNode
(
Signal
*
signal
,
Frag
&
frag
,
NdbOut
&
out
,
TupLoc
loc
,
PrintPar
&
par
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
TupLoc
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
TreeEnt
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
TreeNode
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
TreeHead
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
TreePos
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
DescAttr
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
ScanOp
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
Index
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
Frag
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
NodeHandle
&
);
friend
class
NdbOut
&
operator
<<
(
NdbOut
&
,
const
ScanOp
&
);
FILE
*
debugFile
;
NdbOut
debugOut
;
unsigned
debugFlags
;
...
...
@@ -834,8 +847,45 @@ Dbtux::ConstData::operator=(Data data)
return
*
this
;
}
// Dbtux::TupLoc
inline
Dbtux
::
TupLoc
::
TupLoc
()
:
m_pageId
(
RNIL
),
m_pageOffset
(
0
)
{
}
inline
Dbtux
::
TupLoc
::
TupLoc
(
Uint32
pageId
,
Uint16
pageOffset
)
:
m_pageId
(
pageId
),
m_pageOffset
(
pageOffset
)
{
}
inline
bool
Dbtux
::
TupLoc
::
operator
==
(
const
TupLoc
&
loc
)
const
{
return
m_pageId
==
loc
.
m_pageId
&&
m_pageOffset
==
loc
.
m_pageOffset
;
}
inline
bool
Dbtux
::
TupLoc
::
operator
!=
(
const
TupLoc
&
loc
)
const
{
return
!
(
*
this
==
loc
);
}
// Dbtux::TreeEnt
inline
Dbtux
::
TreeEnt
::
TreeEnt
()
:
m_tupAddr
(
NullTupAddr
),
m_tupVersion
(
0
),
m_fragBit
(
255
),
pad1
(
0
)
{
}
inline
int
Dbtux
::
TreeEnt
::
cmp
(
const
TreeEnt
ent
)
const
{
...
...
@@ -855,8 +905,36 @@ Dbtux::TreeEnt::cmp(const TreeEnt ent) const
return
0
;
}
// Dbtux::TreeNode
inline
Dbtux
::
TreeNode
::
TreeNode
()
:
m_side
(
2
),
m_balance
(
0
),
pad1
(
0
),
m_occup
(
0
),
m_nodeScan
(
RNIL
)
{
m_linkPI
[
0
]
=
NullTupLoc
.
m_pageId
;
m_linkPO
[
0
]
=
NullTupLoc
.
m_pageOffset
;
m_linkPI
[
1
]
=
NullTupLoc
.
m_pageId
;
m_linkPO
[
1
]
=
NullTupLoc
.
m_pageOffset
;
m_linkPI
[
2
]
=
NullTupLoc
.
m_pageId
;
m_linkPO
[
2
]
=
NullTupLoc
.
m_pageOffset
;
}
// Dbtux::TreeHead
inline
Dbtux
::
TreeHead
::
TreeHead
()
:
m_nodeSize
(
0
),
m_prefSize
(
0
),
m_minOccup
(
0
),
m_maxOccup
(
0
),
m_root
()
{
}
inline
unsigned
Dbtux
::
TreeHead
::
getSize
(
AccSize
acc
)
const
{
...
...
@@ -888,52 +966,10 @@ Dbtux::TreeHead::getEntList(TreeNode* node) const
return
(
TreeEnt
*
)
ptr
;
}
// Dbtux
// constructors
inline
Dbtux
::
TupLoc
::
TupLoc
()
:
m_pageId
(
RNIL
),
m_pageOffset
(
0
)
{
}
inline
Dbtux
::
TreeEnt
::
TreeEnt
()
:
m_tupAddr
(
NullTupAddr
),
m_tupVersion
(
0
),
m_fragBit
(
255
),
unused1
(
0
)
{
}
inline
Dbtux
::
TreeNode
::
TreeNode
()
:
m_side
(
255
),
m_occup
(
0
),
m_balance
(
0
),
unused1
(
0xa1
),
m_nodeScan
(
RNIL
)
{
m_link
[
0
]
=
NullTupAddr
;
m_link
[
1
]
=
NullTupAddr
;
m_link
[
2
]
=
NullTupAddr
;
}
inline
Dbtux
::
TreeHead
::
TreeHead
()
:
m_nodeSize
(
0
),
m_prefSize
(
0
),
m_minOccup
(
0
),
m_maxOccup
(
0
),
m_root
(
0
)
{
}
// Dbtux::TreePos
inline
Dbtux
::
TreePos
::
TreePos
()
:
m_addr
(
NullTupAddr
),
m_loc
(),
m_pos
(
ZNIL
),
m_match
(
false
),
...
...
@@ -942,6 +978,8 @@ Dbtux::TreePos::TreePos() :
{
}
// Dbtux::DescPage
inline
Dbtux
::
DescPage
::
DescPage
()
:
m_nextPage
(
RNIL
),
...
...
@@ -956,6 +994,41 @@ Dbtux::DescPage::DescPage() :
}
}
// Dbtux::ScanOp
inline
Dbtux
::
ScanOp
::
ScanOp
(
ScanBoundPool
&
scanBoundPool
)
:
m_state
(
Undef
),
m_lockwait
(
false
),
m_userPtr
(
RNIL
),
m_userRef
(
RNIL
),
m_tableId
(
RNIL
),
m_indexId
(
RNIL
),
m_fragPtrI
(
RNIL
),
m_transId1
(
0
),
m_transId2
(
0
),
m_savePointId
(
0
),
m_accLockOp
(
RNIL
),
m_readCommitted
(
0
),
m_lockMode
(
0
),
m_keyInfo
(
0
),
m_boundMin
(
scanBoundPool
),
m_boundMax
(
scanBoundPool
),
m_scanPos
(),
m_lastEnt
(),
m_nodeScan
(
RNIL
)
{
m_bound
[
0
]
=
&
m_boundMin
;
m_bound
[
1
]
=
&
m_boundMax
;
m_boundCnt
[
0
]
=
0
;
m_boundCnt
[
1
]
=
0
;
for
(
unsigned
i
=
0
;
i
<
MaxAccLockOps
;
i
++
)
{
m_accLockOps
[
i
]
=
RNIL
;
}
}
// Dbtux::Index
inline
Dbtux
::
Index
::
Index
()
:
m_state
(
NotDefined
),
...
...
@@ -972,6 +1045,8 @@ Dbtux::Index::Index() :
};
};
// Dbtux::Frag
inline
Dbtux
::
Frag
::
Frag
(
ArrayPool
<
ScanOp
>&
scanOpPool
)
:
m_tableId
(
RNIL
),
...
...
@@ -993,6 +1068,8 @@ Dbtux::Frag::Frag(ArrayPool<ScanOp>& scanOpPool) :
m_accTableFragPtrI
[
1
]
=
RNIL
;
}
// Dbtux::FragOp
inline
Dbtux
::
FragOp
::
FragOp
()
:
m_userPtr
(
RNIL
),
...
...
@@ -1005,11 +1082,12 @@ Dbtux::FragOp::FragOp() :
{
};
// Dbtux::NodeHandle
inline
Dbtux
::
NodeHandle
::
NodeHandle
(
Dbtux
&
tux
,
Frag
&
frag
)
:
m_tux
(
tux
),
m_frag
(
frag
),
m_addr
(
NullTupAddr
),
m_loc
(),
m_acc
(
AccNone
),
m_flags
(
0
),
...
...
@@ -1018,126 +1096,20 @@ Dbtux::NodeHandle::NodeHandle(Dbtux& tux, Frag& frag) :
{
}
inline
Dbtux
::
ScanOp
::
ScanOp
(
ScanBoundPool
&
scanBoundPool
)
:
m_state
(
Undef
),
m_lockwait
(
false
),
m_userPtr
(
RNIL
),
m_userRef
(
RNIL
),
m_tableId
(
RNIL
),
m_indexId
(
RNIL
),
m_fragPtrI
(
RNIL
),
m_transId1
(
0
),
m_transId2
(
0
),
m_savePointId
(
0
),
m_accLockOp
(
RNIL
),
m_readCommitted
(
0
),
m_lockMode
(
0
),
m_keyInfo
(
0
),
m_boundMin
(
scanBoundPool
),
m_boundMax
(
scanBoundPool
),
m_scanPos
(),
m_lastEnt
(),
m_nodeScan
(
RNIL
)
{
m_bound
[
0
]
=
&
m_boundMin
;
m_bound
[
1
]
=
&
m_boundMax
;
m_boundCnt
[
0
]
=
0
;
m_boundCnt
[
1
]
=
0
;
for
(
unsigned
i
=
0
;
i
<
MaxAccLockOps
;
i
++
)
{
m_accLockOps
[
i
]
=
RNIL
;
}
}
inline
Dbtux
::
CopyPar
::
CopyPar
()
:
m_items
(
0
),
m_headers
(
true
),
m_maxwords
(
~
0
),
// max unsigned
// output
m_numitems
(
0
),
m_numwords
(
0
)
{
}
inline
Dbtux
::
ReadPar
::
ReadPar
()
:
m_first
(
0
),
m_count
(
0
),
m_data
(
0
),
m_size
(
0
)
{
}
inline
Dbtux
::
StorePar
::
StorePar
()
:
m_opCode
(
TupStoreTh
::
OpUndefined
),
m_offset
(
0
),
m_size
(
0
),
m_errorCode
(
0
)
{
}
inline
Dbtux
::
SearchPar
::
SearchPar
()
:
m_data
(
0
),
m_ent
()
{
}
inline
Dbtux
::
CmpPar
::
CmpPar
()
:
m_data1
(
0
),
m_data2
(
0
),
m_len2
(
0
),
m_first
(
0
),
m_numEq
(
0
)
{
}
inline
Dbtux
::
BoundPar
::
BoundPar
()
:
m_data1
(
0
),
m_data2
(
0
),
m_count1
(
0
),
m_len2
(
0
),
m_dir
(
255
)
{
}
#ifdef VM_TRACE
inline
Dbtux
::
PrintPar
::
PrintPar
()
:
// caller fills in
m_path
(),
m_side
(
255
),
m_parent
(
NullTupAddr
),
// default return values
m_depth
(
0
),
m_occup
(
0
),
m_ok
(
true
)
{
}
#endif
// node handles
inline
Dbtux
::
TupAddr
inline
Dbtux
::
TupLoc
Dbtux
::
NodeHandle
::
getLink
(
unsigned
i
)
{
ndbrequire
(
i
<=
2
);
return
m_node
->
m_link
[
i
]
;
return
TupLoc
(
m_node
->
m_linkPI
[
i
],
m_node
->
m_linkPO
[
i
])
;
}
inline
unsigned
Dbtux
::
NodeHandle
::
getChilds
()
{
return
(
m_node
->
m_link
[
0
]
!=
NullTupAddr
)
+
(
m_node
->
m_link
[
1
]
!=
NullTupAddr
);
return
(
getLink
(
0
)
!=
NullTupLoc
)
+
(
getLink
(
1
)
!=
NullTupLoc
);
}
inline
Dbtux
::
TupAddr
inline
unsigned
Dbtux
::
NodeHandle
::
getSide
()
{
return
m_node
->
m_side
;
...
...
@@ -1193,17 +1165,18 @@ Dbtux::NodeHandle::getMinMax(unsigned i)
}
inline
void
Dbtux
::
NodeHandle
::
setLink
(
unsigned
i
,
Tup
Addr
addr
)
Dbtux
::
NodeHandle
::
setLink
(
unsigned
i
,
Tup
Loc
loc
)
{
ndbrequire
(
i
<=
2
);
m_node
->
m_link
[
i
]
=
addr
;
m_node
->
m_linkPI
[
i
]
=
loc
.
m_pageId
;
m_node
->
m_linkPO
[
i
]
=
loc
.
m_pageOffset
;
m_flags
|=
DoUpdate
;
}
inline
void
Dbtux
::
NodeHandle
::
setSide
(
unsigned
i
)
{
// ndbrequire(i <= 1
);
ndbrequire
(
i
<=
2
);
m_node
->
m_side
=
i
;
m_flags
|=
DoUpdate
;
}
...
...
@@ -1232,6 +1205,79 @@ Dbtux::NodeHandle::setNodeScan(Uint32 scanPtrI)
m_flags
|=
DoUpdate
;
}
// parameters for methods
inline
Dbtux
::
CopyPar
::
CopyPar
()
:
m_items
(
0
),
m_headers
(
true
),
m_maxwords
(
~
0
),
// max unsigned
// output
m_numitems
(
0
),
m_numwords
(
0
)
{
}
inline
Dbtux
::
ReadPar
::
ReadPar
()
:
m_first
(
0
),
m_count
(
0
),
m_data
(
0
),
m_size
(
0
)
{
}
inline
Dbtux
::
StorePar
::
StorePar
()
:
m_opCode
(
TupStoreTh
::
OpUndefined
),
m_offset
(
0
),
m_size
(
0
),
m_errorCode
(
0
)
{
}
inline
Dbtux
::
SearchPar
::
SearchPar
()
:
m_data
(
0
),
m_ent
()
{
}
inline
Dbtux
::
CmpPar
::
CmpPar
()
:
m_data1
(
0
),
m_data2
(
0
),
m_len2
(
0
),
m_first
(
0
),
m_numEq
(
0
)
{
}
inline
Dbtux
::
BoundPar
::
BoundPar
()
:
m_data1
(
0
),
m_data2
(
0
),
m_count1
(
0
),
m_len2
(
0
),
m_dir
(
255
)
{
}
#ifdef VM_TRACE
inline
Dbtux
::
PrintPar
::
PrintPar
()
:
// caller fills in
m_path
(),
m_side
(
255
),
m_parent
(),
// default return values
m_depth
(
0
),
m_occup
(
0
),
m_ok
(
true
)
{
}
#endif
// other methods
inline
Dbtux
::
DescEnt
&
...
...
ndb/src/kernel/blocks/dbtux/DbtuxDebug.cpp
View file @
eec2835d
...
...
@@ -97,7 +97,7 @@ Dbtux::printTree(Signal* signal, Frag& frag, NdbOut& out)
PrintPar
par
;
strcpy
(
par
.
m_path
,
"."
);
par
.
m_side
=
2
;
par
.
m_parent
=
NullTup
Addr
;
par
.
m_parent
=
NullTup
Loc
;
printNode
(
signal
,
frag
,
out
,
tree
.
m_root
,
par
);
out
.
m_out
->
flush
();
if
(
!
par
.
m_ok
)
{
...
...
@@ -116,15 +116,15 @@ Dbtux::printTree(Signal* signal, Frag& frag, NdbOut& out)
}
void
Dbtux
::
printNode
(
Signal
*
signal
,
Frag
&
frag
,
NdbOut
&
out
,
Tup
Addr
addr
,
PrintPar
&
par
)
Dbtux
::
printNode
(
Signal
*
signal
,
Frag
&
frag
,
NdbOut
&
out
,
Tup
Loc
loc
,
PrintPar
&
par
)
{
if
(
addr
==
NullTupAddr
)
{
if
(
loc
==
NullTupLoc
)
{
par
.
m_depth
=
0
;
return
;
}
TreeHead
&
tree
=
frag
.
m_tree
;
NodeHandlePtr
nodePtr
;
selectNode
(
signal
,
frag
,
nodePtr
,
addr
,
AccFull
);
selectNode
(
signal
,
frag
,
nodePtr
,
loc
,
AccFull
);
out
<<
par
.
m_path
<<
" "
<<
*
nodePtr
.
p
<<
endl
;
// check children
PrintPar
cpar
[
2
];
...
...
@@ -133,7 +133,7 @@ Dbtux::printNode(Signal* signal, Frag& frag, NdbOut& out, TupAddr addr, PrintPar
sprintf
(
cpar
[
i
].
m_path
,
"%s%c"
,
par
.
m_path
,
"LR"
[
i
]);
cpar
[
i
].
m_side
=
i
;
cpar
[
i
].
m_depth
=
0
;
cpar
[
i
].
m_parent
=
addr
;
cpar
[
i
].
m_parent
=
loc
;
printNode
(
signal
,
frag
,
out
,
nodePtr
.
p
->
getLink
(
i
),
cpar
[
i
]);
if
(
!
cpar
[
i
].
m_ok
)
{
par
.
m_ok
=
false
;
...
...
@@ -143,7 +143,7 @@ Dbtux::printNode(Signal* signal, Frag& frag, NdbOut& out, TupAddr addr, PrintPar
if
(
nodePtr
.
p
->
getLink
(
2
)
!=
par
.
m_parent
)
{
par
.
m_ok
=
false
;
out
<<
par
.
m_path
<<
" *** "
;
out
<<
"parent
addr
"
<<
hex
<<
nodePtr
.
p
->
getLink
(
2
);
out
<<
"parent
loc
"
<<
hex
<<
nodePtr
.
p
->
getLink
(
2
);
out
<<
" should be "
<<
hex
<<
par
.
m_parent
<<
endl
;
}
if
(
nodePtr
.
p
->
getSide
()
!=
par
.
m_side
)
{
...
...
@@ -181,8 +181,8 @@ Dbtux::printNode(Signal* signal, Frag& frag, NdbOut& out, TupAddr addr, PrintPar
}
// check missed half-leaf/leaf merge
for
(
unsigned
i
=
0
;
i
<=
1
;
i
++
)
{
if
(
nodePtr
.
p
->
getLink
(
i
)
!=
NullTup
Addr
&&
nodePtr
.
p
->
getLink
(
1
-
i
)
==
NullTup
Addr
&&
if
(
nodePtr
.
p
->
getLink
(
i
)
!=
NullTup
Loc
&&
nodePtr
.
p
->
getLink
(
1
-
i
)
==
NullTup
Loc
&&
nodePtr
.
p
->
getOccup
()
+
cpar
[
i
].
m_occup
<=
tree
.
m_maxOccup
)
{
par
.
m_ok
=
false
;
out
<<
par
.
m_path
<<
" *** "
;
...
...
@@ -194,6 +194,18 @@ Dbtux::printNode(Signal* signal, Frag& frag, NdbOut& out, TupAddr addr, PrintPar
par
.
m_occup
=
nodePtr
.
p
->
getOccup
();
}
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Dbtux
::
TupLoc
&
loc
)
{
if
(
loc
==
Dbtux
::
NullTupLoc
)
{
out
<<
"null"
;
}
else
{
out
<<
hex
<<
loc
.
m_pageId
;
out
<<
"."
<<
dec
<<
loc
.
m_pageOffset
;
}
return
out
;
}
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Dbtux
::
TreeEnt
&
ent
)
{
...
...
@@ -206,10 +218,13 @@ operator<<(NdbOut& out, const Dbtux::TreeEnt& ent)
NdbOut
&
operator
<<
(
NdbOut
&
out
,
const
Dbtux
::
TreeNode
&
node
)
{
Dbtux
::
TupLoc
link0
(
node
.
m_linkPI
[
0
],
node
.
m_linkPO
[
0
]);
Dbtux
::
TupLoc
link1
(
node
.
m_linkPI
[
1
],
node
.
m_linkPO
[
1
]);
Dbtux
::
TupLoc
link2
(
node
.
m_linkPI
[
2
],
node
.
m_linkPO
[
2
]);
out
<<
"[TreeNode "
<<
hex
<<
&
node
;
out
<<
" [left "
<<
hex
<<
node
.
m_link
[
0
]
<<
"]"
;
out
<<
" [right "
<<
hex
<<
node
.
m_link
[
1
]
<<
"]"
;
out
<<
" [up "
<<
hex
<<
node
.
m_link
[
2
]
<<
"]"
;
out
<<
" [left "
<<
link0
<<
"]"
;
out
<<
" [right "
<<
link1
<<
"]"
;
out
<<
" [up "
<<
link2
<<
"]"
;
out
<<
" [side "
<<
dec
<<
node
.
m_side
<<
"]"
;
out
<<
" [occup "
<<
dec
<<
node
.
m_occup
<<
"]"
;
out
<<
" [balance "
<<
dec
<<
(
int
)
node
.
m_balance
<<
"]"
;
...
...
@@ -238,7 +253,7 @@ NdbOut&
operator
<<
(
NdbOut
&
out
,
const
Dbtux
::
TreePos
&
pos
)
{
out
<<
"[TreePos "
<<
hex
<<
&
pos
;
out
<<
" [
addr "
<<
hex
<<
pos
.
m_addr
<<
"]"
;
out
<<
" [
loc "
<<
pos
.
m_loc
<<
"]"
;
out
<<
" [pos "
<<
dec
<<
pos
.
m_pos
<<
"]"
;
out
<<
" [match "
<<
dec
<<
pos
.
m_match
<<
"]"
;
out
<<
" [dir "
<<
dec
<<
pos
.
m_dir
<<
"]"
;
...
...
@@ -338,7 +353,7 @@ operator<<(NdbOut& out, const Dbtux::NodeHandle& node)
const
Dbtux
::
Frag
&
frag
=
node
.
m_frag
;
const
Dbtux
::
TreeHead
&
tree
=
frag
.
m_tree
;
out
<<
"[NodeHandle "
<<
hex
<<
&
node
;
out
<<
" [
addr "
<<
hex
<<
node
.
m_addr
<<
"]"
;
out
<<
" [
loc "
<<
node
.
m_loc
<<
"]"
;
out
<<
" [acc "
<<
dec
<<
node
.
m_acc
<<
"]"
;
out
<<
" [flags "
<<
hex
<<
node
.
m_flags
<<
"]"
;
out
<<
" [node "
<<
*
node
.
m_node
<<
"]"
;
...
...
ndb/src/kernel/blocks/dbtux/DbtuxMaint.cpp
View file @
eec2835d
...
...
@@ -285,8 +285,8 @@ Dbtux::tupStoreTh(Signal* signal, const Frag& frag, NodeHandlePtr nodePtr, Store
req
->
tableId
=
frag
.
m_indexId
;
req
->
fragId
=
frag
.
m_fragId
;
req
->
fragPtrI
=
frag
.
m_tupIndexFragPtrI
;
req
->
tupAddr
=
nodePtr
.
p
->
m_addr
;
req
->
tupVersion
=
0
;
req
->
tupAddr
=
RNIL
;
// no longer used
req
->
tupVersion
=
0
;
// no longer used
req
->
pageId
=
nodePtr
.
p
->
m_loc
.
m_pageId
;
req
->
pageOffset
=
nodePtr
.
p
->
m_loc
.
m_pageOffset
;
req
->
bufferId
=
0
;
...
...
@@ -346,21 +346,18 @@ Dbtux::tupStoreTh(Signal* signal, const Frag& frag, NodeHandlePtr nodePtr, Store
const
Uint32
*
src
=
(
const
Uint32
*
)
buffer
+
storePar
.
m_offset
;
memcpy
(
dst
,
src
,
storePar
.
m_size
<<
2
);
}
// fallthru
break
;
case
TupStoreTh
:
:
OpInsert
:
jam
();
// fallthru
case
TupStoreTh
:
:
OpUpdate
:
jam
();
nodePtr
.
p
->
m_addr
=
req
->
tupAddr
;
nodePtr
.
p
->
m_loc
.
m_pageId
=
req
->
pageId
;
nodePtr
.
p
->
m_loc
.
m_pageOffset
=
req
->
pageOffset
;
break
;
case
TupStoreTh
:
:
OpUpdate
:
jam
();
break
;
case
TupStoreTh
:
:
OpDelete
:
jam
();
nodePtr
.
p
->
m_addr
=
NullTupAddr
;
nodePtr
.
p
->
m_loc
.
m_pageId
=
RNIL
;
nodePtr
.
p
->
m_loc
.
m_pageOffset
=
0
;
nodePtr
.
p
->
m_loc
=
NullTupLoc
;
break
;
default:
ndbrequire
(
false
);
...
...
ndb/src/kernel/blocks/dbtux/DbtuxMeta.cpp
View file @
eec2835d
...
...
@@ -202,6 +202,7 @@ Dbtux::execTUX_ADD_ATTRREQ(Signal* signal)
jam
();
// initialize tree header
TreeHead
&
tree
=
fragPtr
.
p
->
m_tree
;
new
(
&
tree
)
TreeHead
();
// make these configurable later
tree
.
m_nodeSize
=
MAX_TTREE_NODE_SIZE
;
tree
.
m_prefSize
=
MAX_TTREE_PREF_SIZE
;
...
...
@@ -227,8 +228,8 @@ Dbtux::execTUX_ADD_ATTRREQ(Signal* signal)
break
;
}
tree
.
m_minOccup
=
tree
.
m_maxOccup
-
maxSlack
;
// root node does not exist
tree
.
m_root
=
NullTup
Addr
;
// root node does not exist
(also set by ctor)
tree
.
m_root
=
NullTup
Loc
;
// fragment is defined
c_fragOpPool
.
release
(
fragOpPtr
);
}
...
...
ndb/src/kernel/blocks/dbtux/DbtuxNode.cpp
View file @
eec2835d
...
...
@@ -80,14 +80,14 @@ Dbtux::preallocNode(Signal* signal, Frag& frag, Uint32& errorCode)
* Find node in the cache. XXX too slow, use direct links instead
*/
void
Dbtux
::
findNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Addr
addr
)
Dbtux
::
findNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Loc
loc
)
{
NodeHandlePtr
tmpPtr
;
tmpPtr
.
i
=
frag
.
m_nodeList
;
while
(
tmpPtr
.
i
!=
RNIL
)
{
jam
();
c_nodeHandlePool
.
getPtr
(
tmpPtr
);
if
(
tmpPtr
.
p
->
m_
addr
==
addr
)
{
if
(
tmpPtr
.
p
->
m_
loc
==
loc
)
{
jam
();
nodePtr
=
tmpPtr
;
return
;
...
...
@@ -102,18 +102,18 @@ Dbtux::findNode(Signal* signal, Frag& frag, NodeHandlePtr& nodePtr, TupAddr addr
* Get handle for existing node.
*/
void
Dbtux
::
selectNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Addr
addr
,
AccSize
acc
)
Dbtux
::
selectNode
(
Signal
*
signal
,
Frag
&
frag
,
NodeHandlePtr
&
nodePtr
,
Tup
Loc
loc
,
AccSize
acc
)
{
ndbrequire
(
addr
!=
NullTupAddr
&&
acc
>
AccNone
);
ndbrequire
(
loc
!=
NullTupLoc
&&
acc
>
AccNone
);
NodeHandlePtr
tmpPtr
;
// search in cache
findNode
(
signal
,
frag
,
tmpPtr
,
addr
);
findNode
(
signal
,
frag
,
tmpPtr
,
loc
);
if
(
tmpPtr
.
i
==
RNIL
)
{
jam
();
// add new node
seizeNode
(
signal
,
frag
,
tmpPtr
);
ndbrequire
(
tmpPtr
.
i
!=
RNIL
);
tmpPtr
.
p
->
m_
addr
=
addr
;
tmpPtr
.
p
->
m_
loc
=
loc
;
}
if
(
tmpPtr
.
p
->
m_acc
<
acc
)
{
jam
();
...
...
@@ -276,7 +276,7 @@ Dbtux::NodeHandle::pushUp(Signal* signal, unsigned pos, const TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
if
(
scanPos
.
m_pos
>=
pos
)
{
jam
();
#ifdef VM_TRACE
...
...
@@ -329,7 +329,7 @@ Dbtux::NodeHandle::popDown(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
const
Uint32
nextPtrI
=
scanPtr
.
p
->
m_nodeScan
;
if
(
scanPos
.
m_pos
==
pos
)
{
jam
();
...
...
@@ -349,7 +349,7 @@ Dbtux::NodeHandle::popDown(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_pos
!=
pos
);
if
(
scanPos
.
m_pos
>
pos
)
{
jam
();
...
...
@@ -403,7 +403,7 @@ Dbtux::NodeHandle::pushDown(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
const
Uint32
nextPtrI
=
scanPtr
.
p
->
m_nodeScan
;
if
(
scanPos
.
m_pos
==
0
)
{
jam
();
...
...
@@ -424,7 +424,7 @@ Dbtux::NodeHandle::pushDown(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_pos
!=
0
);
if
(
scanPos
.
m_pos
<=
pos
)
{
jam
();
...
...
@@ -480,7 +480,7 @@ Dbtux::NodeHandle::popUp(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
const
Uint32
nextPtrI
=
scanPtr
.
p
->
m_nodeScan
;
if
(
scanPos
.
m_pos
==
pos
)
{
jam
();
...
...
@@ -501,7 +501,7 @@ Dbtux::NodeHandle::popUp(Signal* signal, unsigned pos, TreeEnt& ent)
jam
();
m_tux
.
c_scanOpPool
.
getPtr
(
scanPtr
);
TreePos
&
scanPos
=
scanPtr
.
p
->
m_scanPos
;
ndbrequire
(
scanPos
.
m_
addr
==
m_addr
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_
loc
==
m_loc
&&
scanPos
.
m_pos
<
occup
);
ndbrequire
(
scanPos
.
m_pos
!=
pos
);
if
(
scanPos
.
m_pos
<
pos
)
{
jam
();
...
...
ndb/src/kernel/blocks/dbtux/DbtuxScan.cpp
View file @
eec2835d
...
...
@@ -47,7 +47,7 @@ Dbtux::execACC_SCANREQ(Signal* signal)
ndbrequire
(
frag
.
m_fragId
<
(
1
<<
frag
.
m_fragOff
));
TreeHead
&
tree
=
frag
.
m_tree
;
// check for empty fragment
if
(
tree
.
m_root
==
NullTup
Addr
)
{
if
(
tree
.
m_root
==
NullTup
Loc
)
{
jam
();
AccScanConf
*
const
conf
=
(
AccScanConf
*
)
signal
->
getDataPtrSend
();
conf
->
scanPtr
=
req
->
senderData
;
...
...
@@ -275,13 +275,13 @@ Dbtux::execNEXT_SCANREQ(Signal* signal)
case
NextScanReq
:
:
ZSCAN_CLOSE
:
jam
();
// unlink from tree node first to avoid state changes
if
(
scan
.
m_scanPos
.
m_
addr
!=
NullTupAddr
)
{
if
(
scan
.
m_scanPos
.
m_
loc
!=
NullTupLoc
)
{
jam
();
const
Tup
Addr
addr
=
scan
.
m_scanPos
.
m_addr
;
const
Tup
Loc
loc
=
scan
.
m_scanPos
.
m_loc
;
NodeHandlePtr
nodePtr
;
selectNode
(
signal
,
frag
,
nodePtr
,
addr
,
AccHead
);
selectNode
(
signal
,
frag
,
nodePtr
,
loc
,
AccHead
);
nodePtr
.
p
->
unlinkScan
(
scanPtr
);
scan
.
m_scanPos
.
m_
addr
=
NullTupAddr
;
scan
.
m_scanPos
.
m_
loc
=
NullTupLoc
;
}
if
(
scan
.
m_lockwait
)
{
jam
();
...
...
@@ -699,14 +699,14 @@ Dbtux::scanFirst(Signal* signal, ScanOpPtr scanPtr)
ScanOp
&
scan
=
*
scanPtr
.
p
;
Frag
&
frag
=
*
c_fragPool
.
getPtr
(
scan
.
m_fragPtrI
);
TreeHead
&
tree
=
frag
.
m_tree
;
if
(
tree
.
m_root
==
NullTup
Addr
)
{
if
(
tree
.
m_root
==
NullTup
Loc
)
{
// tree may have become empty
jam
();
scan
.
m_state
=
ScanOp
::
Last
;
return
;
}
TreePos
pos
;
pos
.
m_
addr
=
tree
.
m_root
;
pos
.
m_
loc
=
tree
.
m_root
;
NodeHandlePtr
nodePtr
;
// unpack lower bound
const
ScanBound
&
bound
=
*
scan
.
m_bound
[
0
];
...
...
@@ -724,7 +724,7 @@ Dbtux::scanFirst(Signal* signal, ScanOpPtr scanPtr)
boundPar
.
m_dir
=
0
;
loop:
{
jam
();
selectNode
(
signal
,
frag
,
nodePtr
,
pos
.
m_
addr
,
AccPref
);
selectNode
(
signal
,
frag
,
nodePtr
,
pos
.
m_
loc
,
AccPref
);
const
unsigned
occup
=
nodePtr
.
p
->
getOccup
();
ndbrequire
(
occup
!=
0
);
for
(
unsigned
i
=
0
;
i
<=
1
;
i
++
)
{
...
...
@@ -750,11 +750,11 @@ loop: {
}
if
(
i
==
0
&&
ret
<
0
)
{
jam
();
const
Tup
Addr
tupAddr
=
nodePtr
.
p
->
getLink
(
i
);
if
(
tupAddr
!=
NullTupAddr
)
{
const
Tup
Loc
loc
=
nodePtr
.
p
->
getLink
(
i
);
if
(
loc
!=
NullTupLoc
)
{
jam
();
// continue to left subtree
pos
.
m_
addr
=
tupAddr
;
pos
.
m_
loc
=
loc
;
goto
loop
;
}
// start scanning this node
...
...
@@ -768,11 +768,11 @@ loop: {
}
if
(
i
==
1
&&
ret
>
0
)
{
jam
();
const
Tup
Addr
tupAddr
=
nodePtr
.
p
->
getLink
(
i
);
if
(
tupAddr
!=
NullTupAddr
)
{
const
Tup
Loc
loc
=
nodePtr
.
p
->
getLink
(
i
);
if
(
loc
!=
NullTupLoc
)
{
jam
();
// continue to right subtree
pos
.
m_
addr
=
tupAddr
;
pos
.
m_
loc
=
loc
;
goto
loop
;
}
// start scanning upwards
...
...
@@ -869,7 +869,7 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
TreePos
pos
=
scan
.
m_scanPos
;
// get and remember original node
NodeHandlePtr
origNodePtr
;
selectNode
(
signal
,
frag
,
origNodePtr
,
pos
.
m_
addr
,
AccHead
);
selectNode
(
signal
,
frag
,
origNodePtr
,
pos
.
m_
loc
,
AccHead
);
ndbrequire
(
origNodePtr
.
p
->
islinkScan
(
scanPtr
));
// current node in loop
NodeHandlePtr
nodePtr
=
origNodePtr
;
...
...
@@ -878,21 +878,21 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
if
(
pos
.
m_dir
==
2
)
{
// coming up from root ends the scan
jam
();
pos
.
m_
addr
=
NullTupAddr
;
pos
.
m_
loc
=
NullTupLoc
;
scan
.
m_state
=
ScanOp
::
Last
;
break
;
}
if
(
nodePtr
.
p
->
m_
addr
!=
pos
.
m_addr
)
{
if
(
nodePtr
.
p
->
m_
loc
!=
pos
.
m_loc
)
{
jam
();
selectNode
(
signal
,
frag
,
nodePtr
,
pos
.
m_
addr
,
AccHead
);
selectNode
(
signal
,
frag
,
nodePtr
,
pos
.
m_
loc
,
AccHead
);
}
if
(
pos
.
m_dir
==
4
)
{
// coming down from parent proceed to left child
jam
();
Tup
Addr
addr
=
nodePtr
.
p
->
getLink
(
0
);
if
(
addr
!=
NullTupAddr
)
{
Tup
Loc
loc
=
nodePtr
.
p
->
getLink
(
0
);
if
(
loc
!=
NullTupLoc
)
{
jam
();
pos
.
m_
addr
=
addr
;
pos
.
m_
loc
=
loc
;
pos
.
m_dir
=
4
;
// unchanged
continue
;
}
...
...
@@ -937,7 +937,7 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
if
(
ret
<
0
)
{
jam
();
// hit upper bound of single range scan
pos
.
m_
addr
=
NullTupAddr
;
pos
.
m_
loc
=
NullTupLoc
;
scan
.
m_state
=
ScanOp
::
Last
;
break
;
}
...
...
@@ -951,10 +951,10 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
break
;
}
// after node proceed to right child
Tup
Addr
addr
=
nodePtr
.
p
->
getLink
(
1
);
if
(
addr
!=
NullTupAddr
)
{
Tup
Loc
loc
=
nodePtr
.
p
->
getLink
(
1
);
if
(
loc
!=
NullTupLoc
)
{
jam
();
pos
.
m_
addr
=
addr
;
pos
.
m_
loc
=
loc
;
pos
.
m_dir
=
4
;
continue
;
}
...
...
@@ -964,7 +964,7 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
if
(
pos
.
m_dir
==
1
)
{
// coming from right child proceed to parent
jam
();
pos
.
m_
addr
=
nodePtr
.
p
->
getLink
(
2
);
pos
.
m_
loc
=
nodePtr
.
p
->
getLink
(
2
);
pos
.
m_dir
=
nodePtr
.
p
->
getSide
();
continue
;
}
...
...
@@ -974,7 +974,7 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
scan
.
m_scanPos
=
pos
;
// relink
if
(
scan
.
m_state
==
ScanOp
::
Current
)
{
ndbrequire
(
pos
.
m_
addr
==
nodePtr
.
p
->
m_addr
);
ndbrequire
(
pos
.
m_
loc
==
nodePtr
.
p
->
m_loc
);
if
(
origNodePtr
.
i
!=
nodePtr
.
i
)
{
jam
();
origNodePtr
.
p
->
unlinkScan
(
scanPtr
);
...
...
@@ -982,7 +982,7 @@ Dbtux::scanNext(Signal* signal, ScanOpPtr scanPtr)
}
}
else
if
(
scan
.
m_state
==
ScanOp
::
Last
)
{
jam
();
ndbrequire
(
pos
.
m_
addr
==
NullTupAddr
);
ndbrequire
(
pos
.
m_
loc
==
NullTupLoc
);
origNodePtr
.
p
->
unlinkScan
(
scanPtr
);
}
else
{
ndbrequire
(
false
);
...
...
ndb/src/kernel/blocks/dbtux/DbtuxTree.cpp
View file @
eec2835d
...
...
@@ -30,9 +30,9 @@ Dbtux::treeSearch(Signal* signal, Frag& frag, SearchPar searchPar, TreePos& tree
{
const
TreeHead
&
tree
=
frag
.
m_tree
;
const
unsigned
numAttrs
=
frag
.
m_numAttrs
;
treePos
.
m_
addr
=
tree
.
m_root
;
treePos
.
m_
loc
=
tree
.
m_root
;
NodeHandlePtr
nodePtr
;
if
(
treePos
.
m_
addr
==
NullTupAddr
)
{
if
(
treePos
.
m_
loc
==
NullTupLoc
)
{
// empty tree
jam
();
treePos
.
m_pos
=
0
;
...
...
@@ -41,7 +41,7 @@ Dbtux::treeSearch(Signal* signal, Frag& frag, SearchPar searchPar, TreePos& tree
}
loop:
{
jam
();
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
addr
,
AccPref
);
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
loc
,
AccPref
);
const
unsigned
occup
=
nodePtr
.
p
->
getOccup
();
ndbrequire
(
occup
!=
0
);
// number of equal initial attributes in bounding node
...
...
@@ -82,15 +82,14 @@ loop: {
}
if
(
i
==
0
?
(
ret
<
0
)
:
(
ret
>
0
))
{
jam
();
const
Tup
Addr
tupAddr
=
nodePtr
.
p
->
getLink
(
i
);
if
(
tupAddr
!=
NullTupAddr
)
{
const
Tup
Loc
loc
=
nodePtr
.
p
->
getLink
(
i
);
if
(
loc
!=
NullTupLoc
)
{
jam
();
// continue to left/right subtree
treePos
.
m_
addr
=
tupAddr
;
treePos
.
m_
loc
=
loc
;
goto
loop
;
}
// position is immediately before/after this node
// XXX disallow second case
treePos
.
m_pos
=
(
i
==
0
?
0
:
occup
);
treePos
.
m_match
=
false
;
return
;
...
...
@@ -159,16 +158,16 @@ Dbtux::treeAdd(Signal* signal, Frag& frag, TreePos treePos, TreeEnt ent)
unsigned
pos
=
treePos
.
m_pos
;
NodeHandlePtr
nodePtr
;
// check for empty tree
if
(
treePos
.
m_
addr
==
NullTupAddr
)
{
if
(
treePos
.
m_
loc
==
NullTupLoc
)
{
jam
();
insertNode
(
signal
,
frag
,
nodePtr
,
AccPref
);
nodePtr
.
p
->
pushUp
(
signal
,
0
,
ent
);
nodePtr
.
p
->
setSide
(
2
);
tree
.
m_root
=
nodePtr
.
p
->
m_
addr
;
tree
.
m_root
=
nodePtr
.
p
->
m_
loc
;
return
;
}
// access full node
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
addr
,
AccFull
);
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
loc
,
AccFull
);
// check if it is bounding node
if
(
pos
!=
0
&&
pos
!=
nodePtr
.
p
->
getOccup
())
{
jam
();
...
...
@@ -181,18 +180,18 @@ Dbtux::treeAdd(Signal* signal, Frag& frag, TreePos treePos, TreeEnt ent)
// returns min entry
nodePtr
.
p
->
pushDown
(
signal
,
pos
-
1
,
ent
);
// find position to add the removed min entry
Tup
Addr
childAddr
=
nodePtr
.
p
->
getLink
(
0
);
if
(
child
Addr
==
NullTupAddr
)
{
Tup
Loc
childLoc
=
nodePtr
.
p
->
getLink
(
0
);
if
(
child
Loc
==
NullTupLoc
)
{
jam
();
// left child will be added
pos
=
0
;
}
else
{
jam
();
// find glb node
while
(
child
Addr
!=
NullTupAddr
)
{
while
(
child
Loc
!=
NullTupLoc
)
{
jam
();
selectNode
(
signal
,
frag
,
nodePtr
,
child
Addr
,
AccHead
);
child
Addr
=
nodePtr
.
p
->
getLink
(
1
);
selectNode
(
signal
,
frag
,
nodePtr
,
child
Loc
,
AccHead
);
child
Loc
=
nodePtr
.
p
->
getLink
(
1
);
}
// access full node again
accessNode
(
signal
,
frag
,
nodePtr
,
AccFull
);
...
...
@@ -202,7 +201,7 @@ Dbtux::treeAdd(Signal* signal, Frag& frag, TreePos treePos, TreeEnt ent)
}
// adding new min or max
unsigned
i
=
(
pos
==
0
?
0
:
1
);
ndbrequire
(
nodePtr
.
p
->
getLink
(
i
)
==
NullTup
Addr
);
ndbrequire
(
nodePtr
.
p
->
getLink
(
i
)
==
NullTup
Loc
);
// check if the half-leaf/leaf has room for one more
if
(
nodePtr
.
p
->
getOccup
()
<
tree
.
m_maxOccup
)
{
jam
();
...
...
@@ -214,8 +213,8 @@ Dbtux::treeAdd(Signal* signal, Frag& frag, TreePos treePos, TreeEnt ent)
insertNode
(
signal
,
frag
,
childPtr
,
AccPref
);
childPtr
.
p
->
pushUp
(
signal
,
0
,
ent
);
// connect parent and child
nodePtr
.
p
->
setLink
(
i
,
childPtr
.
p
->
m_
addr
);
childPtr
.
p
->
setLink
(
2
,
nodePtr
.
p
->
m_
addr
);
nodePtr
.
p
->
setLink
(
i
,
childPtr
.
p
->
m_
loc
);
childPtr
.
p
->
setLink
(
2
,
nodePtr
.
p
->
m_
loc
);
childPtr
.
p
->
setSide
(
i
);
// re-balance tree at each node
while
(
true
)
{
...
...
@@ -254,14 +253,14 @@ Dbtux::treeAdd(Signal* signal, Frag& frag, TreePos treePos, TreeEnt ent)
}
else
{
ndbrequire
(
false
);
}
Tup
Addr
parentAddr
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Addr
==
NullTupAddr
)
{
Tup
Loc
parentLoc
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Loc
==
NullTupLoc
)
{
jam
();
// root node - done
break
;
}
i
=
nodePtr
.
p
->
getSide
();
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Loc
,
AccHead
);
}
}
...
...
@@ -275,7 +274,7 @@ Dbtux::treeRemove(Signal* signal, Frag& frag, TreePos treePos)
unsigned
pos
=
treePos
.
m_pos
;
NodeHandlePtr
nodePtr
;
// access full node
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
addr
,
AccFull
);
selectNode
(
signal
,
frag
,
nodePtr
,
treePos
.
m_
loc
,
AccFull
);
TreeEnt
ent
;
// check interior node first
if
(
nodePtr
.
p
->
getChilds
()
==
2
)
{
...
...
@@ -290,11 +289,11 @@ Dbtux::treeRemove(Signal* signal, Frag& frag, TreePos treePos)
// save current handle
NodeHandlePtr
parentPtr
=
nodePtr
;
// find glb node
Tup
Addr
childAddr
=
nodePtr
.
p
->
getLink
(
0
);
while
(
child
Addr
!=
NullTupAddr
)
{
Tup
Loc
childLoc
=
nodePtr
.
p
->
getLink
(
0
);
while
(
child
Loc
!=
NullTupLoc
)
{
jam
();
selectNode
(
signal
,
frag
,
nodePtr
,
child
Addr
,
AccHead
);
child
Addr
=
nodePtr
.
p
->
getLink
(
1
);
selectNode
(
signal
,
frag
,
nodePtr
,
child
Loc
,
AccHead
);
child
Loc
=
nodePtr
.
p
->
getLink
(
1
);
}
// access full node again
accessNode
(
signal
,
frag
,
nodePtr
,
AccFull
);
...
...
@@ -311,21 +310,21 @@ Dbtux::treeRemove(Signal* signal, Frag& frag, TreePos treePos)
// handle half-leaf
for
(
unsigned
i
=
0
;
i
<=
1
;
i
++
)
{
jam
();
Tup
Addr
childAddr
=
nodePtr
.
p
->
getLink
(
i
);
if
(
child
Addr
!=
NullTupAddr
)
{
Tup
Loc
childLoc
=
nodePtr
.
p
->
getLink
(
i
);
if
(
child
Loc
!=
NullTupLoc
)
{
// move to child
selectNode
(
signal
,
frag
,
nodePtr
,
child
Addr
,
AccFull
);
selectNode
(
signal
,
frag
,
nodePtr
,
child
Loc
,
AccFull
);
// balance of half-leaf parent requires child to be leaf
break
;
}
}
ndbrequire
(
nodePtr
.
p
->
getChilds
()
==
0
);
// get parent if any
Tup
Addr
parentAddr
=
nodePtr
.
p
->
getLink
(
2
);
Tup
Loc
parentLoc
=
nodePtr
.
p
->
getLink
(
2
);
NodeHandlePtr
parentPtr
;
unsigned
i
=
nodePtr
.
p
->
getSide
();
// move all that fits into parent
if
(
parent
Addr
!=
NullTupAddr
)
{
if
(
parent
Loc
!=
NullTupLoc
)
{
jam
();
selectNode
(
signal
,
frag
,
parentPtr
,
nodePtr
.
p
->
getLink
(
2
),
AccFull
);
parentPtr
.
p
->
slide
(
signal
,
nodePtr
,
i
);
...
...
@@ -338,36 +337,36 @@ Dbtux::treeRemove(Signal* signal, Frag& frag, TreePos treePos)
}
// remove empty leaf
deleteNode
(
signal
,
frag
,
nodePtr
);
if
(
parent
Addr
==
NullTupAddr
)
{
if
(
parent
Loc
==
NullTupLoc
)
{
jam
();
// tree is now empty
tree
.
m_root
=
NullTup
Addr
;
tree
.
m_root
=
NullTup
Loc
;
return
;
}
nodePtr
=
parentPtr
;
nodePtr
.
p
->
setLink
(
i
,
NullTup
Addr
);
nodePtr
.
p
->
setLink
(
i
,
NullTup
Loc
);
#ifdef dbtux_min_occup_less_max_occup
// check if we created a half-leaf
if
(
nodePtr
.
p
->
getBalance
()
==
0
)
{
jam
();
// move entries from the other child
Tup
Addr
childAddr
=
nodePtr
.
p
->
getLink
(
1
-
i
);
Tup
Loc
childLoc
=
nodePtr
.
p
->
getLink
(
1
-
i
);
NodeHandlePtr
childPtr
;
selectNode
(
signal
,
frag
,
childPtr
,
child
Addr
,
AccFull
);
selectNode
(
signal
,
frag
,
childPtr
,
child
Loc
,
AccFull
);
nodePtr
.
p
->
slide
(
signal
,
childPtr
,
1
-
i
);
if
(
childPtr
.
p
->
getOccup
()
==
0
)
{
jam
();
deleteNode
(
signal
,
frag
,
childPtr
);
nodePtr
.
p
->
setLink
(
1
-
i
,
NullTup
Addr
);
nodePtr
.
p
->
setLink
(
1
-
i
,
NullTup
Loc
);
// we are balanced again but our parent balance changes by -1
parent
Addr
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Addr
==
NullTupAddr
)
{
parent
Loc
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Loc
==
NullTupLoc
)
{
jam
();
return
;
}
// fix side and become parent
i
=
nodePtr
.
p
->
getSide
();
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Loc
,
AccHead
);
}
}
#endif
...
...
@@ -411,14 +410,14 @@ Dbtux::treeRemove(Signal* signal, Frag& frag, TreePos treePos)
}
else
{
ndbrequire
(
false
);
}
Tup
Addr
parentAddr
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Addr
==
NullTupAddr
)
{
Tup
Loc
parentLoc
=
nodePtr
.
p
->
getLink
(
2
);
if
(
parent
Loc
==
NullTupLoc
)
{
jam
();
// root node - done
return
;
}
i
=
nodePtr
.
p
->
getSide
();
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
nodePtr
,
parent
Loc
,
AccHead
);
}
}
...
...
@@ -451,7 +450,7 @@ Dbtux::treeRotateSingle(Signal* signal,
Verify that n5Bal is 1 if RR rotate and -1 if LL rotate.
*/
NodeHandlePtr
n5Ptr
=
nodePtr
;
const
Tup
Addr
n5Addr
=
n5Ptr
.
p
->
m_addr
;
const
Tup
Loc
n5Loc
=
n5Ptr
.
p
->
m_loc
;
const
int
n5Bal
=
n5Ptr
.
p
->
getBalance
();
const
int
n5side
=
n5Ptr
.
p
->
getSide
();
ndbrequire
(
n5Bal
+
(
1
-
i
)
==
i
);
...
...
@@ -460,36 +459,36 @@ Dbtux::treeRotateSingle(Signal* signal,
node 5. For an insert to cause this it must have the same balance as 5.
For deletes it can have the balance 0.
*/
Tup
Addr
n3Addr
=
n5Ptr
.
p
->
getLink
(
i
);
Tup
Loc
n3Loc
=
n5Ptr
.
p
->
getLink
(
i
);
NodeHandlePtr
n3Ptr
;
selectNode
(
signal
,
frag
,
n3Ptr
,
n3
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
n3Ptr
,
n3
Loc
,
AccHead
);
const
int
n3Bal
=
n3Ptr
.
p
->
getBalance
();
/*
2 must always be there but is not changed. Thus we mereley check that it
exists.
*/
ndbrequire
(
n3Ptr
.
p
->
getLink
(
i
)
!=
NullTup
Addr
);
ndbrequire
(
n3Ptr
.
p
->
getLink
(
i
)
!=
NullTup
Loc
);
/*
4 is not necessarily there but if it is there it will move from one
side of 3 to the other side of 5. For LL it moves from the right side
to the left side and for RR it moves from the left side to the right
side. This means that it also changes parent from 3 to 5.
*/
Tup
Addr
n4Addr
=
n3Ptr
.
p
->
getLink
(
1
-
i
);
Tup
Loc
n4Loc
=
n3Ptr
.
p
->
getLink
(
1
-
i
);
NodeHandlePtr
n4Ptr
;
if
(
n4
Addr
!=
NullTupAddr
)
{
if
(
n4
Loc
!=
NullTupLoc
)
{
jam
();
selectNode
(
signal
,
frag
,
n4Ptr
,
n4
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
n4Ptr
,
n4
Loc
,
AccHead
);
ndbrequire
(
n4Ptr
.
p
->
getSide
()
==
(
1
-
i
)
&&
n4Ptr
.
p
->
getLink
(
2
)
==
n3
Addr
);
n4Ptr
.
p
->
getLink
(
2
)
==
n3
Loc
);
n4Ptr
.
p
->
setSide
(
i
);
n4Ptr
.
p
->
setLink
(
2
,
n5
Addr
);
n4Ptr
.
p
->
setLink
(
2
,
n5
Loc
);
}
//if
/*
Retrieve the address of 5's parent before it is destroyed
*/
Tup
Addr
n0Addr
=
n5Ptr
.
p
->
getLink
(
2
);
Tup
Loc
n0Loc
=
n5Ptr
.
p
->
getLink
(
2
);
/*
The next step is to perform the rotation. 3 will inherit 5's parent
...
...
@@ -503,22 +502,22 @@ Dbtux::treeRotateSingle(Signal* signal,
1. 3 must have had 5 as parent before the change.
2. 3's side is left for LL and right for RR before change.
*/
ndbrequire
(
n3Ptr
.
p
->
getLink
(
2
)
==
n5
Addr
);
ndbrequire
(
n3Ptr
.
p
->
getLink
(
2
)
==
n5
Loc
);
ndbrequire
(
n3Ptr
.
p
->
getSide
()
==
i
);
n3Ptr
.
p
->
setLink
(
1
-
i
,
n5
Addr
);
n3Ptr
.
p
->
setLink
(
2
,
n0
Addr
);
n3Ptr
.
p
->
setLink
(
1
-
i
,
n5
Loc
);
n3Ptr
.
p
->
setLink
(
2
,
n0
Loc
);
n3Ptr
.
p
->
setSide
(
n5side
);
n5Ptr
.
p
->
setLink
(
i
,
n4
Addr
);
n5Ptr
.
p
->
setLink
(
2
,
n3
Addr
);
n5Ptr
.
p
->
setLink
(
i
,
n4
Loc
);
n5Ptr
.
p
->
setLink
(
2
,
n3
Loc
);
n5Ptr
.
p
->
setSide
(
1
-
i
);
if
(
n0
Addr
!=
NullTupAddr
)
{
if
(
n0
Loc
!=
NullTupLoc
)
{
jam
();
NodeHandlePtr
n0Ptr
;
selectNode
(
signal
,
frag
,
n0Ptr
,
n0
Addr
,
AccHead
);
n0Ptr
.
p
->
setLink
(
n5side
,
n3
Addr
);
selectNode
(
signal
,
frag
,
n0Ptr
,
n0
Loc
,
AccHead
);
n0Ptr
.
p
->
setLink
(
n5side
,
n3
Loc
);
}
else
{
jam
();
frag
.
m_tree
.
m_root
=
n3
Addr
;
frag
.
m_tree
.
m_root
=
n3
Loc
;
}
//if
/* The final step of the change is to update the balance of 3 and
5 that changed places. There are two cases here. The first case is
...
...
@@ -655,36 +654,36 @@ Dbtux::treeRotateDouble(Signal* signal, Frag& frag, NodeHandlePtr& nodePtr, unsi
{
// old top node
NodeHandlePtr
n6Ptr
=
nodePtr
;
const
Tup
Addr
n6Addr
=
n6Ptr
.
p
->
m_addr
;
const
Tup
Loc
n6Loc
=
n6Ptr
.
p
->
m_loc
;
// the un-updated balance
const
int
n6Bal
=
n6Ptr
.
p
->
getBalance
();
const
unsigned
n6Side
=
n6Ptr
.
p
->
getSide
();
// level 1
Tup
Addr
n2Addr
=
n6Ptr
.
p
->
getLink
(
i
);
Tup
Loc
n2Loc
=
n6Ptr
.
p
->
getLink
(
i
);
NodeHandlePtr
n2Ptr
;
selectNode
(
signal
,
frag
,
n2Ptr
,
n2
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
n2Ptr
,
n2
Loc
,
AccHead
);
const
int
n2Bal
=
n2Ptr
.
p
->
getBalance
();
// level 2
Tup
Addr
n4Addr
=
n2Ptr
.
p
->
getLink
(
1
-
i
);
Tup
Loc
n4Loc
=
n2Ptr
.
p
->
getLink
(
1
-
i
);
NodeHandlePtr
n4Ptr
;
selectNode
(
signal
,
frag
,
n4Ptr
,
n4
Addr
,
AccHead
);
selectNode
(
signal
,
frag
,
n4Ptr
,
n4
Loc
,
AccHead
);
const
int
n4Bal
=
n4Ptr
.
p
->
getBalance
();
ndbrequire
(
i
<=
1
);
ndbrequire
(
n6Bal
+
(
1
-
i
)
==
i
);
ndbrequire
(
n2Bal
==
-
n6Bal
);
ndbrequire
(
n2Ptr
.
p
->
getLink
(
2
)
==
n6
Addr
);
ndbrequire
(
n2Ptr
.
p
->
getLink
(
2
)
==
n6
Loc
);
ndbrequire
(
n2Ptr
.
p
->
getSide
()
==
i
);
ndbrequire
(
n4Ptr
.
p
->
getLink
(
2
)
==
n2
Addr
);
ndbrequire
(
n4Ptr
.
p
->
getLink
(
2
)
==
n2
Loc
);
// level 3
Tup
Addr
n3Addr
=
n4Ptr
.
p
->
getLink
(
i
);
Tup
Addr
n5Addr
=
n4Ptr
.
p
->
getLink
(
1
-
i
);
Tup
Loc
n3Loc
=
n4Ptr
.
p
->
getLink
(
i
);
Tup
Loc
n5Loc
=
n4Ptr
.
p
->
getLink
(
1
-
i
);
// fill up leaf before it becomes internal
if
(
n3
Addr
==
NullTupAddr
&&
n5Addr
==
NullTupAddr
)
{
if
(
n3
Loc
==
NullTupLoc
&&
n5Loc
==
NullTupLoc
)
{
jam
();
TreeHead
&
tree
=
frag
.
m_tree
;
accessNode
(
signal
,
frag
,
n2Ptr
,
AccFull
);
...
...
@@ -694,44 +693,44 @@ Dbtux::treeRotateDouble(Signal* signal, Frag& frag, NodeHandlePtr& nodePtr, unsi
ndbrequire
(
n4Ptr
.
p
->
getOccup
()
>=
tree
.
m_minOccup
);
ndbrequire
(
n2Ptr
.
p
->
getOccup
()
!=
0
);
}
else
{
if
(
n3
Addr
!=
NullTupAddr
)
{
if
(
n3
Loc
!=
NullTupLoc
)
{
jam
();
NodeHandlePtr
n3Ptr
;
selectNode
(
signal
,
frag
,
n3Ptr
,
n3
Addr
,
AccHead
);
n3Ptr
.
p
->
setLink
(
2
,
n2
Addr
);
selectNode
(
signal
,
frag
,
n3Ptr
,
n3
Loc
,
AccHead
);
n3Ptr
.
p
->
setLink
(
2
,
n2
Loc
);
n3Ptr
.
p
->
setSide
(
1
-
i
);
}
if
(
n5
Addr
!=
NullTupAddr
)
{
if
(
n5
Loc
!=
NullTupLoc
)
{
jam
();
NodeHandlePtr
n5Ptr
;
selectNode
(
signal
,
frag
,
n5Ptr
,
n5
Addr
,
AccHead
);
n5Ptr
.
p
->
setLink
(
2
,
n6Ptr
.
p
->
m_
addr
);
selectNode
(
signal
,
frag
,
n5Ptr
,
n5
Loc
,
AccHead
);
n5Ptr
.
p
->
setLink
(
2
,
n6Ptr
.
p
->
m_
loc
);
n5Ptr
.
p
->
setSide
(
i
);
}
}
// parent
Tup
Addr
n0Addr
=
n6Ptr
.
p
->
getLink
(
2
);
Tup
Loc
n0Loc
=
n6Ptr
.
p
->
getLink
(
2
);
NodeHandlePtr
n0Ptr
;
// perform the rotation
n6Ptr
.
p
->
setLink
(
i
,
n5
Addr
);
n6Ptr
.
p
->
setLink
(
2
,
n4
Addr
);
n6Ptr
.
p
->
setLink
(
i
,
n5
Loc
);
n6Ptr
.
p
->
setLink
(
2
,
n4
Loc
);
n6Ptr
.
p
->
setSide
(
1
-
i
);
n2Ptr
.
p
->
setLink
(
1
-
i
,
n3
Addr
);
n2Ptr
.
p
->
setLink
(
2
,
n4
Addr
);
n2Ptr
.
p
->
setLink
(
1
-
i
,
n3
Loc
);
n2Ptr
.
p
->
setLink
(
2
,
n4
Loc
);
n4Ptr
.
p
->
setLink
(
i
,
n2
Addr
);
n4Ptr
.
p
->
setLink
(
1
-
i
,
n6
Addr
);
n4Ptr
.
p
->
setLink
(
2
,
n0
Addr
);
n4Ptr
.
p
->
setLink
(
i
,
n2
Loc
);
n4Ptr
.
p
->
setLink
(
1
-
i
,
n6
Loc
);
n4Ptr
.
p
->
setLink
(
2
,
n0
Loc
);
n4Ptr
.
p
->
setSide
(
n6Side
);
if
(
n0
Addr
!=
NullTupAddr
)
{
if
(
n0
Loc
!=
NullTupLoc
)
{
jam
();
selectNode
(
signal
,
frag
,
n0Ptr
,
n0
Addr
,
AccHead
);
n0Ptr
.
p
->
setLink
(
n6Side
,
n4
Addr
);
selectNode
(
signal
,
frag
,
n0Ptr
,
n0
Loc
,
AccHead
);
n0Ptr
.
p
->
setLink
(
n6Side
,
n4
Loc
);
}
else
{
jam
();
frag
.
m_tree
.
m_root
=
n4
Addr
;
frag
.
m_tree
.
m_root
=
n4
Loc
;
}
// set balance of changed nodes
n4Ptr
.
p
->
setBalance
(
0
);
...
...
ndb/src/kernel/blocks/dbtux/Times.txt
View file @
eec2835d
index maintenance overhead
==========================
"mc02" 2x1700 MHz linux-2.4.9 gcc-2.96 -O3 one db-node
case a: index on Unsigned
...
...
@@ -6,8 +9,8 @@ testOIBasic -case u -table 1 -index 1 -fragtype small -threads 10 -rows 100000 -
case b: index on Varchar(5) + Varchar(5) + Varchar(20) + Unsigned
testOIBasic -case u -table 2 -index 4 -fragtype small -threads 10 -rows 100000 -subloop 1 -nologging
update without index,
update with index
shows ms / 1000 for each and pct overhead
1 million rows, pk update without index, pk
update with index
shows ms / 1000
rows
for each and pct overhead
040616 mc02/a 40 ms 87 ms 114 pct
mc02/b 51 ms 128 ms 148 pct
...
...
@@ -15,4 +18,8 @@ shows ms / 1000 for each and pct overhead
optim 1 mc02/a 38 ms 85 ms 124 pct
mc02/b 51 ms 123 ms 140 pct
optim 2 mc02/a 41 ms 80 ms 96 pct
mc02/b 51 ms 117 ms 128 pct
vim: set et:
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