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11class Zipper:
2 # Tree is a dict with keys "value" (int), "left" (dict or None), "right" (dict or None)
2 """
3 A zipper for navigating and manipulating a binary tree.
4
5 A zipper maintains a focus on a specific node in the tree and allows
6 navigation and modification operations while preserving the tree structure.
7 """
8
9 def __init__(self, tree, path):
10 """
11 Initialize a Zipper instance.
12
13 Args:
14 tree (dict): The full tree structure
15 path (list): Path from root to current focus node, with context
16 """
17 self.tree = tree
18 self.path = path
19
320 @staticmethod
421 def from_tree(tree: dict) -> "Zipper":
5 pass
6
22 """
23 Create a zipper from a binary tree.
24
25 Args:
26 tree (dict): A binary tree with keys "value", "left", and "right"
27
28 Returns:
29 Zipper: A new zipper focused on the root of the tree
30 """
31 # Edge Case: Handle None tree input
32 if tree is None:
33 return None
34 return Zipper(tree, [])
35
36 def _get_focus_node(self):
37 """
38 Get the current focus node based on the path.
39
40 Returns:
41 dict: The current focus node
42 """
43 node = self.tree
44 for direction, parent in self.path:
45 if direction == 'left':
46 node = parent['left']
47 else: # direction == 'right'
48 node = parent['right']
49 return node
50
751 def value(self) -> int:
8 pass
9
52 """
53 Get the value of the focus node.
54
55 Returns:
56 int: The value of the focus node
57 """
58 return self._get_focus_node()['value']
59
1060 def set_value(self, value: int) -> "Zipper":
11 pass
12
61 """
62 Set the value of the focus node, returning a new zipper.
63
64 Args:
65 value (int): The new value for the focus node
66
67 Returns:
68 Zipper: A new zipper with the updated value
69 """
70 # Edge Case: Handle None value
71 if value is None:
72 raise ValueError("Value cannot be None")
73
74 new_tree = self._copy_tree()
75 node = new_tree
76
77 # Navigate to the focus node in the copied tree
78 for direction, parent in self.path:
79 if direction == 'left':
80 node = node['left']
81 else: # direction == 'right'
82 node = node['right']
83
84 node['value'] = value
85 return Zipper(new_tree, self.path[:])
86
1387 def left(self) -> "Zipper | None":
14 pass
15
88 """
89 Move the focus to the left child of the current node.
90
91 Returns:
92 Zipper | None: A new zipper focused on the left child, or None if no left child
93 """
94 focus_node = self._get_focus_node()
95 # Edge Case: Handle missing left child
96 if focus_node['left'] is None:
97 return None
98
99 new_path = self.path[:] + [('left', focus_node)]
100 return Zipper(self.tree, new_path)
101
16102 def set_left(self, tree: dict | None) -> "Zipper":
17 pass
18
103 """
104 Set the left child of the focus node, returning a new zipper.
105
106 Args:
107 tree (dict | None): The new left subtree
108
109 Returns:
110 Zipper: A new zipper with the updated left child
111 """
112 new_tree = self._copy_tree()
113 node = new_tree
114
115 # Navigate to the focus node in the copied tree
116 for direction, parent in self.path:
117 if direction == 'left':
118 node = node['left']
119 else: # direction == 'right'
120 node = node['right']
121
122 node['left'] = tree
123 return Zipper(new_tree, self.path[:])
124
19125 def right(self) -> "Zipper | None":
20 pass
21
126 """
127 Move the focus to the right child of the current node.
128
129 Returns:
130 Zipper | None: A new zipper focused on the right child, or None if no right child
131 """
132 focus_node = self._get_focus_node()
133 # Edge Case: Handle missing right child
134 if focus_node['right'] is None:
135 return None
136
137 new_path = self.path[:] + [('right', focus_node)]
138 return Zipper(self.tree, new_path)
139
22140 def set_right(self, tree: dict | None) -> "Zipper":
23 pass
24
141 """
142 Set the right child of the focus node, returning a new zipper.
143
144 Args:
145 tree (dict | None): The new right subtree
146
147 Returns:
148 Zipper: A new zipper with the updated right child
149 """
150 new_tree = self._copy_tree()
151 node = new_tree
152
153 # Navigate to the focus node in the copied tree
154 for direction, parent in self.path:
155 if direction == 'left':
156 node = node['left']
157 else: # direction == 'right'
158 node = node['right']
159
160 node['right'] = tree
161 return Zipper(new_tree, self.path[:])
162
25163 def up(self) -> "Zipper | None":
26 pass
27
164 """
165 Move the focus to the parent of the current node.
166
167 Returns:
168 Zipper | None: A new zipper focused on the parent, or None if at root
169 """
170 # Edge Case: Handle attempt to move up from root
171 if not self.path:
172 return None
173
174 new_path = self.path[:-1]
175 return Zipper(self.tree, new_path)
176
28177 def to_tree(self) -> dict:
29 pass
178 """
179 Get the full tree from the zipper.
180
181 Returns:
182 dict: The full binary tree
183 """
184 return self.tree
185
186 def _copy_tree(self):
187 """
188 Create a deep copy of the tree.
189
190 Returns:
191 dict: A deep copy of the tree
192 """
193 def _copy_node(node):
194 if node is None:
195 return None
196 return {
197 'value': node['value'],
198 'left': _copy_node(node['left']),
199 'right': _copy_node(node['right'])
200 }
201 return _copy_node(self.tree)
202
203 # Handled Edge Cases: None tree input, missing left child, missing right child,
204 # attempt to move up from root, None value input
Test NameStatus
test_data_is_retained
Pass
test_dead_end
Pass
test_different_paths_to_same_zipper
Pass
test_left_right_and_up
Pass
test_left_right_and_value
Pass
test_set_left_with_leaf
Pass
test_set_right_with_null
Pass
test_set_right_with_subtree
Pass
test_set_value
Pass
test_set_value_after_traversing_up
Pass
test_set_value_on_deep_focus
Pass
test_test_ability_to_descend_multiple_levels_and_return
Pass
test_traversing_up_from_top
Pass
test_tree_from_deep_focus
Pass
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