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This is a rough outline of upcoming tasks:
[ ] Prove that an index exists such that after CompleteTree.heapPush the pushed element can be obtained by
CompleteTree.get
[ ] Prove that CompleteTree.heapUpdateAt returns the element at the given index
[ ] Prove that CompleteTree.heapRemoveLastWithIndex and CompleteTree.heapRemoveLast yield the same tree
[ ] Prove that CompleteTree.heapRemoveLastWithIndex and CompleteTree.heapRemoveLast yield the same element
[x] Prove that CompleteTree.heapRemoveLastWithIndex only removes one element and leaves the rest unchanged
- This automatically serves as a proof for CompleteTree.heapRemoveLast, once it is shown that they
yield the same tree
- Done by showing that each element of the input tree is in the output tree, except for the one at the
returned index.
[ ] Prove that if CompleteTree.indexOf returns some, CompleteTree.get with that result fulfills the predicate.
[ ] Prove that CompleteTree.heapUpdateRoot indeed exchanges the value at the root.
- Straightforward, but hard to prove:
[ ] Show that for each index in the original heap (except 0) the element is now either the new root, or
in the left or in the right subtree.
- Maybe a new predicate? CompleteTree.contains x => root = x OR left.contains x OR right.contains x
- Try unfolding both functions like in heapRemoveLastWithIndexReturnsItemAtIndex.
- Alternative approach, but less convincing
[x] A part of this is to show that the new root is not the old root, but rather the passed in value or
the root of one of the sub-trees.
[ ] The second part is to show that the recursion (if there is one) does not pass on the old root.
- Basically that heapUpdateRoot either does not recurse, or recurses with the value it started out with.
- This should be relatively straightforward. (left unchanged or left.heapUpdateRoot value and right
unchanged or right.heapUpdateRoot value)
[ ] Prove that CompleteTree.heapUpdateAt indeed updates the value at the given index.
- Use contains again (if that works), or
- Basically making sure that if index != 0 the recursion does either pass on the passed-in value, or the current
node's value.
- This sounds so trivial, that I am not sure if it's even worth the effort.
- The Heap Property that has already been proven shows the rest.
[ ] Write the performance part of this file.
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