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author | truebrain <truebrain@openttd.org> | 2009-01-12 17:11:45 +0000 |
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committer | truebrain <truebrain@openttd.org> | 2009-01-12 17:11:45 +0000 |
commit | a3dd7506d377b1434f913bd65c019eed52b64b6e (patch) | |
tree | ced1a262eb143ad6e64ec02f4a4c89835c0c32fd /bin/ai/library/queue/fibonacci_heap | |
parent | 9294f9616866b9778c22076c19b5a32b4f85f788 (diff) | |
download | openttd-a3dd7506d377b1434f913bd65c019eed52b64b6e.tar.xz |
(svn r15027) -Merge: tomatos and bananas left to be, here is NoAI for all to see.
NoAI is an API (a framework) to build your own AIs in. See:
http://wiki.openttd.org/wiki/index.php/AI:Main_Page
With many thanks to:
- glx and Rubidium for their syncing, feedback and hard work
- Yexo for his feedback, patches, and AIs which tested the system very deep
- Morloth for his feedback and patches
- TJIP for hosting a challenge which kept NoAI on track
- All AI authors for testing our AI API, and all other people who helped in one way or another
-Remove: all old AIs and their cheats/hacks
Diffstat (limited to 'bin/ai/library/queue/fibonacci_heap')
-rw-r--r-- | bin/ai/library/queue/fibonacci_heap/library.nut | 12 | ||||
-rw-r--r-- | bin/ai/library/queue/fibonacci_heap/main.nut | 204 |
2 files changed, 216 insertions, 0 deletions
diff --git a/bin/ai/library/queue/fibonacci_heap/library.nut b/bin/ai/library/queue/fibonacci_heap/library.nut new file mode 100644 index 000000000..1ea7260e0 --- /dev/null +++ b/bin/ai/library/queue/fibonacci_heap/library.nut @@ -0,0 +1,12 @@ +/* $Id$ */ + +class FibonacciHeap extends AILibrary { + function GetAuthor() { return "OpenTTD NoAI Developers Team"; } + function GetName() { return "Fibonacci Heap"; } + function GetDescription() { return "An implementation of a Fibonacci Heap"; } + function GetVersion() { return 1; } + function GetDate() { return "2008-08-22"; } + function CreateInstance() { return "FibonacciHeap"; } +} + +RegisterLibrary(FibonacciHeap()); diff --git a/bin/ai/library/queue/fibonacci_heap/main.nut b/bin/ai/library/queue/fibonacci_heap/main.nut new file mode 100644 index 000000000..7c6b3ece2 --- /dev/null +++ b/bin/ai/library/queue/fibonacci_heap/main.nut @@ -0,0 +1,204 @@ +/* $Id$ */ + +/** + * Fibonacci heap. + * This heap is heavily optimized for the Insert and Pop functions. + * Peek and Pop always return the current lowest value in the list. + * Insert is implemented as a lazy insert, as it will simply add the new + * node to the root list. Sort is done on every Pop operation. + */ +class FibonacciHeap { + _min = null; + _min_index = 0; + _min_priority = 0; + _count = 0; + _root_list = null; + + /** + * Create a new fibonacci heap. + * http://en.wikipedia.org/wiki/Fibonacci_heap + */ + constructor() { + _count = 0; + _min = Node(); + _min.priority = 0x7FFFFFFF; + _min_index = 0; + _min_priority = 0x7FFFFFFF; + _root_list = []; + } + + /** + * Insert a new entry in the heap. + * The complexity of this operation is O(1). + * @param item The item to add to the list. + * @param priority The priority this item has. + */ + function Insert(item, priority); + + /** + * Pop the first entry of the list. + * This is always the item with the lowest priority. + * The complexity of this operation is O(ln n). + * @return The item of the entry with the lowest priority. + */ + function Pop(); + + /** + * Peek the first entry of the list. + * This is always the item with the lowest priority. + * The complexity of this operation is O(1). + * @return The item of the entry with the lowest priority. + */ + function Peek(); + + /** + * Get the amount of current items in the list. + * The complexity of this operation is O(1). + * @return The amount of items currently in the list. + */ + function Count(); + + /** + * Check if an item exists in the list. + * The complexity of this operation is O(n). + * @param item The item to check for. + * @return True if the item is already in the list. + */ + function Exists(item); +}; + +function FibonacciHeap::Insert(item, priority) { + /* Create a new node instance to add to the heap. */ + local node = Node(); + /* Changing params is faster than using constructor values */ + node.item = item; + node.priority = priority; + + /* Update the reference to the minimum node if this node has a + * smaller priority. */ + if (_min_priority > priority) { + _min = node; + _min_index = _root_list.len(); + _min_priority = priority; + } + + _root_list.append(node); + _count++; +} + +function FibonacciHeap::Pop() { + + if (_count == 0) return null; + + /* Bring variables from the class scope to this scope explicitly to + * optimize variable lookups by Squirrel. */ + local z = _min; + local tmp_root_list = _root_list; + + /* If there are any children, bring them all to the root level. */ + tmp_root_list.extend(z.child); + + /* Remove the minimum node from the rootList. */ + tmp_root_list.remove(_min_index); + local root_cache = {}; + + /* Now we decrease the number of nodes on the root level by + * merging nodes which have the same degree. The node with + * the lowest priority value will become the parent. */ + foreach(x in tmp_root_list) { + local y; + + /* See if we encountered a node with the same degree already. */ + while (y = root_cache.rawdelete(x.degree)) { + /* Check the priorities. */ + if (x.priority > y.priority) { + local tmp = x; + x = y; + y = tmp; + } + + /* Make y a child of x. */ + x.child.append(y); + x.degree++; + } + + root_cache[x.degree] <- x; + } + + /* The root_cache contains all the nodes which will form the + * new rootList. We reset the priority to the maximum number + * for a 32 signed integer to find a new minumum. */ + tmp_root_list.resize(root_cache.len()); + local i = 0; + local tmp_min_priority = 0x7FFFFFFF; + + /* Now we need to find the new minimum among the root nodes. */ + foreach (val in root_cache) { + if (val.priority < tmp_min_priority) { + _min = val; + _min_index = i; + tmp_min_priority = val.priority; + } + + tmp_root_list[i++] = val; + } + + /* Update global variables. */ + _min_priority = tmp_min_priority; + + _count--; + return z.item; +} + +function FibonacciHeap::Peek() { + if (_count == 0) return null; + return _min.item; +} + +function FibonacciHeap::Count() { + return _count; +} + +function FibonacciHeap::Exists(item) { + return ExistsIn(_root_list, item); +} + +/** + * Auxilary function to search through the whole heap. + * @param list The list of nodes to look through. + * @param item The item to search for. + * @return True if the item is found, false otherwise. + */ +function FibonacciHeap::ExistsIn(list, item) { + + foreach (val in list) { + if (val.item == item) { + return true; + } + + foreach (c in val.child) { + if (ExistsIn(c, item)) { + return true; + } + } + } + + /* No luck, item doesn't exists in the tree rooted under list. */ + return false; +} + +/** + * Basic class the fibonacci heap is composed of. + */ +class FibonacciHeap.Node { + degree = null; + child = null; + + item = null; + priority = null; + + constructor() { + child = []; + degree = 0; + } +}; |