Tree search using successive approximations
Source:R/SuccessiveApproximations.R
SuccessiveApproximations.Rd
Searches for a tree that is optimal under the Successive Approximations criterion Farris1969TreeSearch.
Usage
SuccessiveApproximations(
tree,
dataset,
outgroup = NULL,
k = 3,
maxSuccIter = 20,
ratchetHits = 100,
searchHits = 50,
searchIter = 500,
ratchetIter = 5000,
verbosity = 0,
suboptimal = 0.1
)
SuccessiveWeights(tree, dataset)
Arguments
- tree
A tree of class
phylo
.- dataset
A phylogenetic data matrix of phangorn class
phyDat
, whose names correspond to the labels of any accompanying tree.- outgroup
if not NULL, taxa on which the tree should be rooted
- k
Constant for successive approximations, see Farris 1969 p. 379
- maxSuccIter
maximum iterations of successive approximation
- ratchetHits
maximum hits for parsimony ratchet
- searchHits
maximum hits in tree search
- searchIter
maximum iterations in tree search
- ratchetIter
maximum iterations of parsimony ratchet
- verbosity
Numeric specifying level of detail to display in console: larger numbers provide more verbose feedback to the user.
- suboptimal
retain trees that are this proportion less optimal than the optimal tree
Value
SuccessiveApproximations()
returns a list of class multiPhylo
containing optimal (and slightly suboptimal, if suboptimal > 0) trees.
SuccessiveWeights()
returns the score of a tree, given the
weighting instructions specified in the attributes of the dataset.
See also
Other custom search functions:
EdgeListSearch()
,
Jackknife()
,
MorphyBootstrap()