Definition
An instance D of the parameterized data type d2_dictionary<K1,K2,I> is a
collection of items (
dic2
item). Every item in D contains a key from the
linearly ordered data type K1, a key from the linearly ordered data type K2,
and an information from data type I. K1 and K2 are called the key types
of D, and I is called the information type of D. The number
of items in D is called the size of D. A two-dimensional dictionary of size
zero is said to be empty. We use
<k1, k2, i > to denote the item with first
key k1, second key k2, and information i. For each pair
(k1, k2) in K1 x K2 there is at most one item
<k1, k2, i > in D.
Additionally to the normal dictionary operations, the data type
d2dictionary
supports rectangular range queries on
K1 x K2.
#include < LEDA/d2 _dictionary.h >
Creation
| d2_dictionary<K1,K2,I> | D | creates an instance D of type d2_dictionary<K1,K2,I> and initializes D to the empty dictionary. |
Operations
| K1 | D.key1(dic2_item it) | returns the first key of item it.
Precondition: it is an item in D. |
| K2 | D.key2(dic2_item it) | returns the second key of item it.
Precondition: it is an item in D. |
| I | D.inf(dic2_item it) | returns the information of item it.
Precondition: it is an item in D. |
| I& | D[dic2_item it] | returns a reference to the information of item it.
Precondition: it is an item in D. |
| dic2_item | D.min_key1() | returns the item with minimal first key. |
| dic2_item | D.min_key2() | returns the item with minimal second key. |
| dic2_item | D.max_key1() | returns the item with maximal first key. |
| dic2_item | D.max_key2() | returns the item with maximal second key. |
| dic2_item | D.insert(K1 x, K2 y, I i) | associates the information i with the keys x and y. If there is an item <x, y, j>in D then j is replaced by i, else a new item <x, y, i>is added to D. In both cases the item is returned. |
| dic2_item | D.lookup(K1 x, K2 y) | returns the item with keys x and y (nil if no such item exists in D). |
| list<dic2_item> | D.range_search(K1 x0, K1 x1, K2 y0, K2 y1) | |
| returns the list of all items <k1, k2, i>in D with x0 < = k1 < = x1 and y0 < = k2 < = y1. | ||
| list<dic2_item> | D.all_items() | returns the list of all items of D. |
| void | D.del(K1 x, K2 y) | deletes the item with keys x and y from D. |
| void | D.del_item(dic2_item it) | removes item it from D.
Precondition: it is an item in D. |
| void | D.change_inf(dic2_item it, I i) | |
| makes i the information of item it.
Precondition: it is an item in D. |
||
| void | D.clear() | makes D the empty d2_dictionary. |
| bool | D.empty() | returns true if D is empty, false otherwise. |
| int | D.size() | returns the size of D. |
Implementation
Two-dimensional dictionaries are implemented by dynamic two-dimensional range trees [79,51] based on BB[ alpha ] trees. Operations insert, lookup, del_item, del take time O(log2n), range_search takes time O(k + log2n), where k is the size of the returned list, key, inf, empty, size, change_inf take time O(1), and clear takes time O(nlog n). Here n is the current size of the dictionary. The space requirement is O(nlog n).