Comment implémenter un arbre de recherche binaire en Python ?

Question

Voilà ce que j'ai pour l'instant mais ça ne marche pas :

 class Node:
    rChild,lChild,data = None,None,None

    def __init__(self,key):
        self.rChild = None
        self.lChild = None
        self.data = key

class Tree:
    root,size = None,0
    def __init__(self):
        self.root = None
        self.size = 0

    def insert(self,node,someNumber):
        if node is None:
            node = Node(someNumber)
        else:
            if node.data > someNumber:
                self.insert(node.rchild,someNumber)
            else:
                self.insert(node.rchild, someNumber)
        return

def main():
    t = Tree()
    t.root = Node(4)
    t.root.rchild = Node(5)
    print t.root.data #this works
    print t.root.rchild.data #this works too
    t = Tree()
    t.insert(t.root,4)
    t.insert(t.root,5)
    print t.root.data #this fails
    print t.root.rchild.data #this fails too

if __name__ == '__main__':
     main()

Answer 1

Voici un exemple rapide d'insertion binaire :

 class Node:
    def __init__(self, val):
        self.l_child = None
        self.r_child = None
        self.data = val

def binary_insert(root, node):
    if root is None:
        root = node
    else:
        if root.data > node.data:
            if root.l_child is None:
                root.l_child = node
            else:
                binary_insert(root.l_child, node)
        else:
            if root.r_child is None:
                root.r_child = node
            else:
                binary_insert(root.r_child, node)

def in_order_print(root):
    if not root:
        return
    in_order_print(root.l_child)
    print root.data
    in_order_print(root.r_child)

def pre_order_print(root):
    if not root:
        return        
    print root.data
    pre_order_print(root.l_child)
    pre_order_print(root.r_child)    

---

 r = Node(3)
binary_insert(r, Node(7))
binary_insert(r, Node(1))
binary_insert(r, Node(5))

---

      3
    / \
   1   7
      /
     5

---

 print "in order:"
in_order_print(r)

print "pre order"
pre_order_print(r)

in order:
1
3
5
7
pre order
3
1
7
5

Answer 2

class Node:
    rChild,lChild,parent,data = None,None,None,0    

def __init__(self,key):
    self.rChild = None
    self.lChild = None
    self.parent = None
    self.data = key 

class Tree:
    root,size = None,0
    def __init__(self):
        self.root = None
        self.size = 0
    def insert(self,someNumber):
        self.size = self.size+1
        if self.root is None:
            self.root = Node(someNumber)
        else:
            self.insertWithNode(self.root, someNumber)    

    def insertWithNode(self,node,someNumber):
        if node.lChild is None and node.rChild is None:#external node
            if someNumber > node.data:
                newNode = Node(someNumber)
                node.rChild = newNode
                newNode.parent = node
            else:
                newNode = Node(someNumber)
                node.lChild = newNode
                newNode.parent = node
        else: #not external
            if someNumber > node.data:
                if node.rChild is not None:
                    self.insertWithNode(node.rChild, someNumber)
                else: #if empty node
                    newNode = Node(someNumber)
                    node.rChild = newNode
                    newNode.parent = node 
            else:
                if node.lChild is not None:
                    self.insertWithNode(node.lChild, someNumber)
                else:
                    newNode = Node(someNumber)
                    node.lChild = newNode
                    newNode.parent = node                    

    def printTree(self,someNode):
        if someNode is None:
            pass
        else:
            self.printTree(someNode.lChild)
            print someNode.data
            self.printTree(someNode.rChild)

def main():  
    t = Tree()
    t.insert(5)  
    t.insert(3)
    t.insert(7)
    t.insert(4)
    t.insert(2)
    t.insert(1)
    t.insert(6)
    t.printTree(t.root)

if __name__ == '__main__':
    main()

Ma solution.

Answer 3

class BST:
    def __init__(self, val=None):
        self.left = None
        self.right = None
        self.val = val

    def __str__(self):
        return "[%s, %s, %s]" % (self.left, str(self.val), self.right)

    def isEmpty(self):
        return self.left == self.right == self.val == None

    def insert(self, val):
        if self.isEmpty():
            self.val = val
        elif val < self.val:
            if self.left is None:
                self.left = BST(val)
            else:
                self.left.insert(val)
        else:
            if self.right is None:
                self.right = BST(val)
            else:
                self.right.insert(val)

a = BST(1)
a.insert(2)
a.insert(3)
a.insert(0)
print a

Answer 4

Tree.insert Op se qualifie pour le prix "Gross Misnomer of the Week" -- elle n'insère rien. Il crée un nœud qui n'est attaché à aucun autre nœud (pas qu'il y ait des nœuds auxquels l'attacher), puis le nœud créé est supprimé lorsque la méthode revient.

Pour l'édification de @Hugh Bothwell :

 >>> class Foo(object):
...    bar = None
...
>>> a = Foo()
>>> b = Foo()
>>> a.bar
>>> a.bar = 42
>>> b.bar
>>> b.bar = 666
>>> a.bar
42
>>> b.bar
666
>>>