Difference between revisions of "RSPR version history"

Latest revision as of 00:06, 30 April 2014

Significant new speed improvements that do improve the complexity to O(2^k n).
See Supertrees based on the subtree prune-and-regraft distance and Computing the SPR Distance of Binary Rooted Trees in O(2^k n) Time for more details

Significant speed improvements that we believe improve the complexity to O(2^k n).
The second tree can now be multifurcating.
Added -simple_unrooted option that can be used with -total to quickly compute a good rooting of the second tree based on a bipartition balanced accuracy measure.

Bugfix release
The approximate distance is now output when the cluster reduction is enabled.
The correct approximate distance is output.
The -fpt option (without the -cluster_test cluster reduction option) now correctly outputs "exact drSPR=X" instead of "exact BB drSPR=x".

Includes a cluster reduction step that greatly improves performance in many cases.
Provides an option to find the total rooted SPR distance between the first input tree and each of the remaining input trees.
Stand-alone version of the calculations used in "Subtree Prune-and-Regraft Supertrees."

Optimized branching cases, improving the complexity to O(2.42^k n), where k is the rooted SPR distance and n is the number of leaves.
Version used in "Fast FPT Algorithms for Computing Rooted Agreement Forests: Theory and Experiments."

initial program version.
Computes a 3-approximation of the rooted SPR distance between each pair of input trees.
Computes the exact rooted SPR distance with complexity O(3^k n), where k is the rooted SPR distance and n is the number of leaves.
Option to compute the smallest rooted SPR distance between the first input tree and each of the remaining input trees, to approximate the unrooted SPR distance.
Version used in "A Unifying View on Approximation and FPT of Agreement Forests."

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 __NOTOC__
+==1.3.0==
+* Adds -pairwise option for computing SPR distance matrices
 ==1.2.1==