lecture 5
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@ -54,8 +54,8 @@ def median_pivot(z: AlgoDatArray, left: int, right: int) -> int:
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def quick_sort(z: AlgoDatArray, left: int, right: int):
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if left < right:
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q = partition(z, left, right)
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#q = median_pivot(z, left, right)
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#q = partition(z, left, right)
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q = median_pivot(z, left, right)
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quick_sort(z, left, q-1)
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quick_sort(z, q+1, right)
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111
SoSe24/lec04_trees/avl_tree.py
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111
SoSe24/lec04_trees/avl_tree.py
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@ -0,0 +1,111 @@
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from SoSe24.algodat.foundation import AlgoDatArray, AlgoDatValue, read_int_sequence
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from SoSe24.lec04_trees.bin_tree import BinTree, BinTreeNode
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from time import perf_counter as pfc
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class AVLTreeNode(BinTreeNode):
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def __init__(self, value: AlgoDatValue):
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super().__init__(value)
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self.parent = None
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self.balance = 0
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def update_balance(self):
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left_height = self.left.height() if self.left else 0
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right_height = self.right.height() if self.right else 0
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self.balance = right_height - left_height
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def right_rotate(self) -> BinTreeNode:
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new_root = self.left
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new_root.parent = self.parent
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self.left = new_root.right
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if self.left:
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self.left.parent = self
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new_root.right = self
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self.parent = new_root
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if new_root.parent:
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if new_root.parent.left == self:
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new_root.parent.left = new_root
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else:
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new_root.parent.right = new_root
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self.update_balance()
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new_root.update_balance()
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return new_root
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def left_rotate(self) -> BinTreeNode:
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new_root = self.right
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new_root.parent = self.parent
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self.right = new_root.left
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if self.right:
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self.right.parent = self
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new_root.left = self
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self.parent = new_root
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if new_root.parent:
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if new_root.parent.left == self:
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new_root.parent.left = new_root
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else:
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new_root.parent.right = new_root
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self.update_balance()
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new_root.update_balance()
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return new_root
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def right_left_rotate(self) -> BinTreeNode:
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self.right = self.right.right_rotate()
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return self.left_rotate()
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def left_right_rotate(self) -> BinTreeNode:
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self.left = self.left.left_rotate()
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return self.right_rotate()
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class AVLTree(BinTree):
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def new_node(self, value: AlgoDatValue):
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return AVLTreeNode(value)
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def balance(self, node: AVLTreeNode):
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node.update_balance()
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if node.balance == -2:
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if node.left.balance <= 0:
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node = node.right_rotate()
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else:
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node = node.left_right_rotate()
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elif node.balance == 2:
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if node.right.balance >= 0:
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node = node.left_rotate()
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else:
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node = node.right_left_rotate()
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if node.parent:
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self.balance(node.parent)
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else:
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self.root = node
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def insert(self, value: AlgoDatValue):
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node, parent = super().insert(value)
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node.parent = parent
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if parent:
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self.balance(parent)
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return node, parent
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def delete(self, value: AlgoDatValue):
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node, parent = super().delete(value)
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if node:
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node.parent = parent
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if parent:
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self.balance(parent)
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if __name__ == "__main__":
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z = read_int_sequence("../../seq0.txt")
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print(z, len(z))
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start = pfc()
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tree = AVLTree()
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for i in z:
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tree.insert(i)
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tree.walk()
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tree.tree_walk()
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tree.levelwalk()
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#tree.graph_walk()
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tree.delete(AlgoDatValue(46))
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tree.delete(AlgoDatValue(48))
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tree.graph_walk()
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print(f"Dauer: {pfc() - start:.4f}s")
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AlgoDatValue.summary()
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29
SoSe24/lec04_trees/avl_tree_plot.py
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29
SoSe24/lec04_trees/avl_tree_plot.py
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from SoSe24.algodat.foundation import AlgoDatArray, AlgoDatValue, read_int_sequence, read_int_sequence_limited
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import matplotlib
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matplotlib.use('TkAgg')
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import matplotlib.pyplot as plt
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import avl_tree as avl
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if __name__ == "__main__":
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filename = "../../seq3_sorted.txt"
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#filename = "../../seq3.txt"
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dummy = read_int_sequence(filename)
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n = len(dummy)
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step = n // 100
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memory_values = []
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compare_values = []
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for right_end in range(1, n, step):
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AlgoDatValue.reset()
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z = read_int_sequence_limited(filename, right_end)
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tree = avl.AVLTree()
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for i in z:
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tree.insert(i)
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memory_values.append(AlgoDatValue.memory)
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compare_values.append(AlgoDatValue.compare)
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plt.plot(range(1, n, step), memory_values, 'b', label='Memory')
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plt.plot(range(1, n, step), compare_values, 'r', label='Compare')
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plt.legend()
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plt.show()
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171
SoSe24/lec04_trees/bin_tree.py
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171
SoSe24/lec04_trees/bin_tree.py
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from SoSe24.algodat.foundation import AlgoDatArray, AlgoDatValue, read_int_sequence
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from time import perf_counter as pfc
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class BinTreeNode:
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def __init__(self, value: AlgoDatValue):
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self.value = value
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self.left = None
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self.right = None
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def __str__(self):
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return f"{self.value}"
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def height(self) -> int:
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left_height = self.left.height() if self.left else 0
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right_height = self.right.height() if self.right else 0
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return 1 + max(left_height, right_height)
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class BinTree:
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def __init__(self):
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self.root = None
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def new_node(self, value: AlgoDatValue) -> BinTreeNode:
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return BinTreeNode(value)
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def insert(self, value: AlgoDatValue) -> (BinTreeNode, BinTreeNode):
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if not self.root:
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self.root = self.new_node(value)
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return self.root, None
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current = self.root
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while True:
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if value < current.value:
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if current.left:
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current = current.left
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else:
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current.left = self.new_node(value)
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return current.left, current
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elif value >= current.value:
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if current.right:
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current = current.right
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else:
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current.right = self.new_node(value)
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return current.right, current
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else:
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return None, None
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def search(self, value: AlgoDatValue) -> BinTreeNode:
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current = self.root
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while current:
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if value < current.value:
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current = current.left
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elif value > current.value:
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current = current.right
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else:
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return current
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return None
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def delete(self, value: AlgoDatValue):
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parent = None
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current = self.root
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while current:
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if value < current.value:
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parent = current
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current = current.left
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elif value > current.value:
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parent = current
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current = current.right
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else:
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break
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else:
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return None, None
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if current.left and current.right:
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parent = current
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successor = current.right
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while successor.left:
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parent = successor
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successor = successor.left
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current.value.value = successor.value.value
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current = successor
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if current.left:
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child = current.left
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else:
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child = current.right
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if not parent:
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self.root = child
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return child, None
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elif parent.left == current:
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parent.left = child
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return child, parent
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else:
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parent.right = child
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return child, parent
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def walk(self): # in-order
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print("[ ", end="")
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self.walk_recursive(self.root, 0, 0)
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print(" ]")
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def graph_walk(self):
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self.leaf_counter = 0
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with open("../../graph.gv", "w") as file:
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file.write("digraph BST {\n")
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file.write(" node [fontname=\"Arial\"];\n")
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self.graph_walk_recursive(self.root, file)
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file.write("}")
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def graph_walk_recursive(self, current, file):
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if current is not None:
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if current.left:
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file.write(f"{current.value} -> {current.left.value}; \n")
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self.graph_walk_recursive(current.left, file)
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else:
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file.write(f"left{self.leaf_counter} [shape=point]; \n")
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file.write(f"{current.value} -> left{self.leaf_counter}; \n")
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self.leaf_counter += 1
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if current.right:
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file.write(f"{current.value} -> {current.right.value}; \n")
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self.graph_walk_recursive(current.right, file)
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else:
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file.write(f"right{self.leaf_counter} [shape=point]; \n")
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file.write(f"{current.value} -> right{self.leaf_counter}; \n")
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self.leaf_counter += 1
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def tree_walk(self):
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self.walk_recursive(self.root, 0, 1)
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def walk_recursive(self, node: BinTreeNode, level = 0, increase = 1):
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if node:
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if increase >= 1:
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end = "\n"
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else:
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end = " "
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self.walk_recursive(node.left, level+increase, increase)
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print(" "*level*3 + str(node.value), end=end)
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self.walk_recursive(node.right, level+increase, increase)
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def levelwalk(self):
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if self.root is None:
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return
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queue = [self.root]
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while queue:
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current = queue.pop(0)
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print(current.value, end=" ")
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if current.left:
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queue.append(current.left)
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if current.right:
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queue.append(current.right)
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print()
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if __name__ == "__main__":
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z = read_int_sequence("../../seq0.txt")
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print(z, len(z))
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start = pfc()
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tree = BinTree()
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for i in z:
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tree.insert(i)
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tree.walk()
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tree.tree_walk()
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tree.levelwalk()
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tree.delete(AlgoDatValue(46))
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tree.graph_walk()
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print(f"Dauer: {pfc() - start:.4f}s")
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AlgoDatValue.summary()
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29
SoSe24/lec04_trees/bin_tree_plot.py
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29
SoSe24/lec04_trees/bin_tree_plot.py
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from SoSe24.algodat.foundation import AlgoDatArray, AlgoDatValue, read_int_sequence, read_int_sequence_limited
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import matplotlib
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matplotlib.use('TkAgg')
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import matplotlib.pyplot as plt
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import bin_tree as bt
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if __name__ == "__main__":
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filename = "../../seq3_sorted.txt"
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#filename = "../../seq3.txt"
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dummy = read_int_sequence(filename)
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n = len(dummy)
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step = n // 100
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memory_values = []
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compare_values = []
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for right_end in range(1, n, step):
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AlgoDatValue.reset()
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z = read_int_sequence_limited(filename, right_end)
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tree = bt.BinTree()
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for i in z:
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tree.insert(i)
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memory_values.append(AlgoDatValue.memory)
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compare_values.append(AlgoDatValue.compare)
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plt.plot(range(1, n, step), memory_values, 'b', label='Memory')
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plt.plot(range(1, n, step), compare_values, 'r', label='Compare')
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plt.legend()
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plt.show()
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