B-tree: Difference between revisions
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[[Category:Tree]] | [[Category:Tree]] | ||
[[Category:B-tree]] | [[Category:B-tree]] | ||
== General information == | == General information == | ||
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'''Abstract data structure:''' [[Sorted sequence]] | '''Abstract data structure:''' [[Sorted sequence]] | ||
Implementation Invariant: | '''Implementation Invariant:''' | ||
# There is a number <math>M\in\mathbb{N}</math>, <math>M>1</math>, which is specific for the B-tree object and is constant throughout the life time of the B-tree object. This value <math>M</math> is called the '''order''' of the B-tree. | # There is a number <math>M\in\mathbb{N}</math>, <math>M>1</math>, which is specific for the B-tree object and is constant throughout the life time of the B-tree object. This value <math>M</math> is called the '''order''' of the B-tree. | ||
# A B-tree of order <math>M</math> is a multi-way search tree with <math>2M-1</math> slots for keys and, consequently, <math>2M</math> slots for children pointers, in each node. | # A B-tree of order <math>M</math> is a [[Directed Tree#Multi-way Search Trees|multi-way search tree]] with <math>2M-1</math> slots for keys and, consequently, <math>2M</math> slots for children pointers, in each node. | ||
## The slots for keys are denoted keys<math>[1],\ldots,</math>keys<math>[2M-1]</math>. | ## The slots for keys are denoted keys<math>[1],\ldots,</math>keys<math>[2M\!-\!1]</math>. | ||
## The slots for children are denoted children<math>[ | ## The slots for children are denoted children<math>[0],\ldots,</math>children<math>[2M-1]</math>. | ||
# The attribute <math>n</math> of a node stores the number of filled key slots in this node. | # The attribute <math>n</math> of a node stores the number of filled key slots in this node. | ||
# In each tree node except for the root, it is <math>n\geq | # In each tree node except for the root, it is <math>n\geq M-1</math>; for the root, it is <math>n\geq 1</math>. | ||
# The filled key slots are the ones at positions <math>1,\ldots,n</math>; the filled | # The filled key slots are the ones at positions <math>1,\ldots,n</math>; the filled children slots are the ones at positions <math>0,\ldots,n</math> (except for leaves, of course, where no child slot is filled at all). | ||
# The keys appear in ascending order in a B-tree node, that is, keys<math>[i] | # The keys appear in ascending order in a B-tree node, that is, keys<math>[i]\leq</math> keys<math>[i\!+\!1]</math> for all <math>i\in\{1,\ldots,n-1\}</math>. | ||
# The children pointers appear in the order as used in the definition of multi-way search trees. In other words, for , the range of the node to which | # The children pointers appear in the order as used in the definition of [[Directed Tree#Multi-way Search Trees|multi-way search trees]]. In other words, for <math>R</math> the [[Directed Tree#Range|range]] of the considered node and for <math>i\in\{0,\ldots,n\}</math>, the [[Directed Tree#Range|range]] of the node to which children points is | ||
## for ; | ## <math>R\cap\{K\in\mathcal{K}\,|\,K\leq</math> keys<math>[1]\,\}</math> for <math>i=0</math>; | ||
## for ; | ## <math>R\cap\{K\in\mathcal{K}\,|\,</math> keys<math>[i\!-\!1]\leq K\leq</math> keys<math>[i]\,\}</math> for <math>i\in\{1,\ldots,n-1\}</math>; | ||
## for . | ## <math>R\cap\{K\in\mathcal{K}\,|\,K\geq</math> keys<math>[n]\,\}</math> for <math>i=n</math>. | ||
# All leaves of a B-tree are on the same height level. | # All leaves of a B-tree are on the same height level. | ||
== Depth of a B-tree == | |||
'''Statement:''' | |||
The height of a B-tree of order <math>M</math> with <math>N</math> currently stored keys is <math>\lceil\log_M(N/(2\cdot(M-1))) \rceil+1\in\Theta(\log N)</math> in the worst case. | |||
'''Proof:''' | |||
It suffices to show that the minimum total number of keys on height level <math>i>0</math> is <math>2\cdot M^{i-1}\cdot(M-1)</math>. We apply an induction on <math>i</math>. | |||
# ''Induction basis'': Since the root contains at least one key, there are at least two tree nodes on height level <math>i=1</math>, each containing at least <math>M-1</math> keys. | |||
# ''Induction step'': As all leaves are on the same height level, the minimum number of tree nodes on level <math>i</math> is <math>M</math> times the minimum number of tree nodes on level <math>i-1</math>. Therefore, the minimum number of keys on height level <math>i</math> is <math>M</math> times the minimum number of keys on height level <math>i-1</math>. |
Latest revision as of 13:49, 26 May 2015
General information
Abstract data structure: Sorted sequence
Implementation Invariant:
- There is a number [math]\displaystyle{ M\in\mathbb{N} }[/math], [math]\displaystyle{ M\gt 1 }[/math], which is specific for the B-tree object and is constant throughout the life time of the B-tree object. This value [math]\displaystyle{ M }[/math] is called the order of the B-tree.
- A B-tree of order [math]\displaystyle{ M }[/math] is a multi-way search tree with [math]\displaystyle{ 2M-1 }[/math] slots for keys and, consequently, [math]\displaystyle{ 2M }[/math] slots for children pointers, in each node.
- The slots for keys are denoted keys[math]\displaystyle{ [1],\ldots, }[/math]keys[math]\displaystyle{ [2M\!-\!1] }[/math].
- The slots for children are denoted children[math]\displaystyle{ [0],\ldots, }[/math]children[math]\displaystyle{ [2M-1] }[/math].
- The attribute [math]\displaystyle{ n }[/math] of a node stores the number of filled key slots in this node.
- In each tree node except for the root, it is [math]\displaystyle{ n\geq M-1 }[/math]; for the root, it is [math]\displaystyle{ n\geq 1 }[/math].
- The filled key slots are the ones at positions [math]\displaystyle{ 1,\ldots,n }[/math]; the filled children slots are the ones at positions [math]\displaystyle{ 0,\ldots,n }[/math] (except for leaves, of course, where no child slot is filled at all).
- The keys appear in ascending order in a B-tree node, that is, keys[math]\displaystyle{ [i]\leq }[/math] keys[math]\displaystyle{ [i\!+\!1] }[/math] for all [math]\displaystyle{ i\in\{1,\ldots,n-1\} }[/math].
- The children pointers appear in the order as used in the definition of multi-way search trees. In other words, for [math]\displaystyle{ R }[/math] the range of the considered node and for [math]\displaystyle{ i\in\{0,\ldots,n\} }[/math], the range of the node to which children points is
- [math]\displaystyle{ R\cap\{K\in\mathcal{K}\,|\,K\leq }[/math] keys[math]\displaystyle{ [1]\,\} }[/math] for [math]\displaystyle{ i=0 }[/math];
- [math]\displaystyle{ R\cap\{K\in\mathcal{K}\,|\, }[/math] keys[math]\displaystyle{ [i\!-\!1]\leq K\leq }[/math] keys[math]\displaystyle{ [i]\,\} }[/math] for [math]\displaystyle{ i\in\{1,\ldots,n-1\} }[/math];
- [math]\displaystyle{ R\cap\{K\in\mathcal{K}\,|\,K\geq }[/math] keys[math]\displaystyle{ [n]\,\} }[/math] for [math]\displaystyle{ i=n }[/math].
- All leaves of a B-tree are on the same height level.
Depth of a B-tree
Statement: The height of a B-tree of order [math]\displaystyle{ M }[/math] with [math]\displaystyle{ N }[/math] currently stored keys is [math]\displaystyle{ \lceil\log_M(N/(2\cdot(M-1))) \rceil+1\in\Theta(\log N) }[/math] in the worst case.
Proof: It suffices to show that the minimum total number of keys on height level [math]\displaystyle{ i\gt 0 }[/math] is [math]\displaystyle{ 2\cdot M^{i-1}\cdot(M-1) }[/math]. We apply an induction on [math]\displaystyle{ i }[/math].
- Induction basis: Since the root contains at least one key, there are at least two tree nodes on height level [math]\displaystyle{ i=1 }[/math], each containing at least [math]\displaystyle{ M-1 }[/math] keys.
- Induction step: As all leaves are on the same height level, the minimum number of tree nodes on level [math]\displaystyle{ i }[/math] is [math]\displaystyle{ M }[/math] times the minimum number of tree nodes on level [math]\displaystyle{ i-1 }[/math]. Therefore, the minimum number of keys on height level [math]\displaystyle{ i }[/math] is [math]\displaystyle{ M }[/math] times the minimum number of keys on height level [math]\displaystyle{ i-1 }[/math].