Heap as array: insert: Difference between revisions
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Latest revision as of 23:13, 19 June 2015
Algorithmic problem: Bounded priority queue: insert
Prerequisites:
Type of algorithm: loop
Auxiliary data:
- A current index [math]\displaystyle{ k \in \mathbb{N} }[/math].
- An auxiliary index [math]\displaystyle{ k' \in \mathbb{N} }[/math].
- A number [math]\displaystyle{ ID }[/math] storing the ID to be eventually returned for the new heap element.
Abstract view
Invariant: Before and after each iteration:
- The value of [math]\displaystyle{ N }[/math] is one higher than immediately before the call to this method; one heap item has been inserted, and the key of this heap item is the input key.
- The heap property is fulfilled for all heap items except for the one at position [math]\displaystyle{ \lfloor k/2 \rfloor }[/math] (for that one, the heap property may or may not be fulfilled).
Variant: [math]\displaystyle{ k }[/math] is at least halved.
Break condition: One of the following two conditions is fulfilled:
- either it is [math]\displaystyle{ k = 1 }[/math];
- or, otherwise, the heap property is fulfilled by the heap item at position [math]\displaystyle{ \lfloor k/2 \rfloor }[/math].
Induction basis
Abstract view:
- Attach the new heap item at position [math]\displaystyle{ N + 1 }[/math].
- Increase [math]\displaystyle{ N }[/math] by one.
- Take a position [math]\displaystyle{ i }[/math] from [math]\displaystyle{ Unused }[/math] and associate [math]\displaystyle{ Positions[i] }[/math] with the new heap item.
Implementation:
- Set [math]\displaystyle{ N:=N+1 }[/math].
- Set [math]\displaystyle{ TheHeap[N].key:=K }[/math].
- Extract some [math]\displaystyle{ i }[/math] from [math]\displaystyle{ Unused }[/math].
- Set [math]\displaystyle{ Positions[i]:=N }[/math].
- Set [math]\displaystyle{ TheHeap[N].ID:=i }[/math].
- Set [math]\displaystyle{ ID:=i }[/math].
Proof: Obvious.
Induction step
Abstract view:
- If the current heap item has no parent or the parent fulfills the heap property, terminate the algorithm.
- Otherwise, exchange the current heap item with its parent. The index [math]\displaystyle{ k }[/math] follows the heap item.
Implementation:
- If [math]\displaystyle{ k=1 }[/math], terminate the algorithm and return [math]\displaystyle{ ID }[/math].
- Set [math]\displaystyle{ k' := \lfloor k/2 \rfloor }[/math].
- If [math]\displaystyle{ TheHeap[k'].key \le TheHeap[k].key }[/math], terminate the algorithm and return [math]\displaystyle{ ID }[/math].
- Swap [math]\displaystyle{ Positions[TheHeap[k].ID] }[/math] and [math]\displaystyle{ Positions[TheHeap[k'].ID] }[/math].
- Swap [math]\displaystyle{ TheHeap[k].key }[/math] and [math]\displaystyle{ TheHeap[k'].key }[/math].
- Swap [math]\displaystyle{ TheHeap[k].ID }[/math] and [math]\displaystyle{ TheHeap[k'].ID }[/math].
- Set [math]\displaystyle{ k := k' }[/math].
Correctness: Obviously, the heap item at the old [math]\displaystyle{ k }[/math] now fulfills the heap property, and the new [math]\displaystyle{ k }[/math] is now the only index that does not necessarily fulfill it.
Complexity
Statement: The asymptotic complexity is logarithmic in the worst case.
Proof: Obvious.
Further information
Note that the loop is identical to the loop in Heap as array: decrease key.