Section 8.20 Discussion Questions
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Draw the tree structure resulting from the following set of tree function calls:
>>> r = BinaryTree(3) >>> insertLeft(r,4) [3, [4, [], []], []] >>> insertLeft(r,5) [3, [5, [4, [], []], []], []] >>> insertRight(r,6) [3, [5, [4, [], []], []], [6, [], []]] >>> insertRight(r,7) [3, [5, [4, [], []], []], [7, [], [6, [], []]]] >>> setRootVal(r,9) >>> insertLeft(r,11) [9, [11, [5, [4, [], []], []], []], [7, [], [6, [], []]]]
- Trace the algorithm for creating an expression tree for the expression \((4 * 8) / 6 - 3\text{.}\)
- Consider the following array of integers: [1,2,3,4,5,6,7,8,9,10]. Show the binary search tree resulting from inserting the integers in the array.
- Consider the following array of integers: [10,9,8,7,6,5,4,3,2,1]. Show the binary search tree resulting from inserting the integers in the array.
- Generate a random array of integers. Show the binary heap tree resulting from inserting the integers on the array one at a time.
- Using the array from the previous question, show the binary heap tree resulting from using the array as a parameter to the
buildHeap
method. Show both the tree and array form. - Draw the binary search tree that results from inserting the following keys in the order given: 68,88,61,89,94,50,4,76,66, and 82.
- Generate a random array of integers. Draw the binary search tree resulting from inserting the integers on the array.
- Consider the following array of integers: [1,2,3,4,5,6,7,8,9,10]. Show the binary heap resulting from inserting the integers one at a time.
- Consider the following array of integers: [10,9,8,7,6,5,4,3,2,1]. Show the binary heap resulting from inserting the integers one at a time.
- Consider the two different techniques we used for implementing traversals of a binary tree. Why must we check before the call to
preorder
when implementing as a method, whereas we could check inside the call when implementing as a function? -
Show the function calls needed to build the binary tree in Figure 8.20.1.
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Given the tree in Figure 8.20.2, perform the appropriate rotations to bring it back into balance.
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Using Figure 8.20.3 as a starting point, derive the equation that gives the updated balance factor for node D.
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