Maintaining Arrays of Contiguous Objects
Abstract
In this paper we consider methods for dynamically storing a set of different objects ("modules") in a physical array. Each module requires one free contiguous subinterval in order to be placed. Items are inserted or removed, resulting in a fragmented layout that makes it harder to insert further modules. It is possible to relocate modules, one at a time, to another free subinterval that is contiguous and does not overlap with the current location of the module. These constraints clearly distinguish our problem from classical memory allocation. We present a number of algorithmic results, including a bound of Theta(n^2) on physical sorting if there is a sufficiently large free space and sum up NP-hardness results for arbitrary initial layouts. For online scenarios in which modules arrive one at a time, we present a method that requires O(1) moves per insertion or deletion and amortized cost O(m_i log M) per insertion or deletion, where m_i is the module's size, M is the size of the largest module and costs for moves are linear in the size of a module.
Cite
@article{arxiv.1101.5407,
title = {Maintaining Arrays of Contiguous Objects},
author = {Michael A. Bender and Sándor P. Fekete and Tom Kamphans and Nils Schweer},
journal= {arXiv preprint arXiv:1101.5407},
year = {2011}
}
Comments
12 pages, 4 figures