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# Basisklasse fuer Baumstruktur
# Object-orientiertes Programmieren Wi/97
#
# (c) Martin Strubel, Fakultaet fuer Physik, Universitaet Konstanz
# (strubi@gandalf.physik.uni-konstanz.de)
# updated 08.2001
"""Simple binary tree module
This module demonstrates a binary tree class.
Example::
a = [5, 8, 8, 3, 7, 9]
t1 = Tree()
t1.fromList(a)
Operations on tree nodes are done by writing a simple operator class::
class myOp:
def __init__(self):
...
def operate(self, node):
do_something(node)
and calling the recursive application::
op = MyOp()
t1.recurse(op)
Objects inserted into the tree can be of any kind, as long as they define a
comparison operation.
"""
def recurse(node, do):
if node == None:
return
recurse(node.left, do)
do(node)
recurse(node.right, do)
class Nullnode:
def __init__(self):
self.left = None
self.right = None
self.depth = 0
def recurse(self, do):
if self == Nil:
return
self.left.recurse(do)
do(self)
self.right.recurse(do)
Nil = Nullnode()
def nothing(x):
return x
class Node(Nullnode):
def __init__(self, data = None):
self.left = Nil
self.right = Nil
self.data = data
self.depth = 0
def __repr__(self):
return "Node: %s" % self.data
def insert(self, node):
if node.data < self.data:
if self.left != Nil:
return self.left.insert(node)
else:
node.depth = self.depth + 1
self.left = node
# print "inserted left"
return self
elif node.data > self.data:
if self.right != Nil:
return self.right.insert(node)
else:
node.depth = self.depth + 1
self.right = node
# print "inserted right"
return self
else:
return self.insert_equal(node)
def find(self, node, do = nothing):
if node.data < self.data:
if self.left != Nil:
return self.left.find(node, do)
else:
return self
elif node.data > self.data:
if self.right != Nil:
return self.right.find(node, do)
else:
return self
else:
return do(self)
def remove(self, node):
newpar
return self
def insert_equal(self, node):
#print "insert:",
self.equal(node)
return self
def found_equal(self, node):
self.equal(node)
def equal(self, node):
# handle special
print "node (%s) is equal self (%s)" % (node, self)
def copy(self):
n = Node(self.data)
return n
def recursecopy(self):
n = Node()
n.data = self.data
n.flag = self.flag
if self.left != Nil:
n.left = self.left.recursecopy()
if self.right != Nil:
n.right = self.right.recursecopy()
return n
class NodeOp:
def __init__(self):
self.list = []
def copy(self, node):
self.list.append(node.data)
class Tree:
def __init__(self, root = None):
self.root = root
self.n = 0
def __radd__(self, other):
print other
t = self.copy()
t.merge(other)
return t
def __repr__(self):
return "Tree with %d elements" % self.n
def insert(self, node):
if self.root == None:
self.root = node
else:
self.root.insert(node)
self.n += 1
def recurse(self, do):
if self.root == None:
return
self.root.recurse(do)
def find(self, node):
return self.root.find(node)
def remove(self, node):
self.root.remove(node)
def copy(self):
"make true copy of self"
t = newTree()
c = NodeOp()
self.recurse(c.copy)
t.fromList(c.list)
return t
def asList(self):
c = NodeOp()
self.recurse(c.copy)
return c.list
def fromList(self, list):
for item in list:
n = Node(item)
self.insert(n)
def insertcopy(self, node):
n = node.copy()
self.insert(n)
def merge(self, other):
other.recurse(self.insertcopy)
# EXAMPLE:
newTree = Tree
def printnode(x):
print "Element: %s, depth: %s" % (x, x.depth)
def test():
a = [5, 8, 8, 3, 7, 9]
t1 = Tree()
t1.fromList(a)
b = [12, 4, 56, 7, 34]
t2 = Tree()
t2.fromList(b)
print "tree1:"
print t1.asList()
print "tree2:"
print t2.asList()
print '-----'
print "Trees can be added:"
t3 = t1 + t2
print t3.asList()
print "..or alternatively merged:"
t1.merge(t2)
print t1.asList()
if __name__ == '__main__':
test()
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