SYNOPSIS
use Bio::PopGen::Simulation::Coalescent;
my @taxonnames = qw(SpeciesA SpeciesB SpeciesC SpeciesD);
my $sim1 = Bio::PopGen::Simulation::Coalescent->new(-samples => \@taxonnames);
my $tree = $sim1->next_tree;
# add 20 mutations randomly to the tree
$sim1->add_Mutations($tree,20);
# or for anonymous samples
my $sim2 = Bio::PopGen::Simulation::Coalescent->new( -sample_size => 6,
-maxcount => 50);
my $tree2 = $sim2->next_tree;
# add 20 mutations randomly to the tree
$sim2->add_Mutations($tree2,20);
DESCRIPTION
Builds a random tree every time next_tree is called or up to -maxcount times with branch lengths and provides the ability to randomly add mutations onto the tree with a probabilty proportional to the branch lengths.This algorithm is based on the make_tree algorithm from Richard Hudson 1990.
Hudson, R. R. 1990. Gene genealogies and the coalescent
process. Pp. 1-44 in D. Futuyma and J. Antonovics, eds. Oxford
surveys in evolutionary biology. Vol. 7. Oxford University
Press, New York.
This module was previously named Bio::Tree::RandomTree
FEEDBACK
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Reporting Bugs
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https://github.com/bioperl/bioperl-live/issues
AUTHOR - Jason Stajich, Matthew Hahn
Email jason-at-bioperl-dot-org Email matthew-dot-hahn-at-duke-dot-eduAPPENDIX
The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _new
Title : new
Usage : my $obj = Bio::PopGen::Simulation::Coalescent->new();
Function: Builds a new Bio::PopGen::Simulation::Coalescent object
Returns : an instance of Bio::PopGen::Simulation::Coalescent
Args : -samples => arrayref of sample names
OR
-sample_size=> number of samples (samps will get a systematic name)
-maxcount => [optional] maximum number of trees to provide
next_tree
Title : next_tree
Usage : my $tree = $factory->next_tree
Function: Returns a random tree based on the initialized number of nodes
NOTE: if maxcount is not specified on initialization or
set to a valid integer, subsequent calls to next_tree will
continue to return random trees and never return undef
Returns : Bio::Tree::TreeI object
Args : none
add_Mutations
Title : add_Mutations
Usage : $factory->add_Mutations($tree, $mutcount);
Function: Adds mutations to a tree via a random process weighted by
branch length (it is a poisson distribution
as part of a coalescent process)
Returns : none
Args : $tree - Bio::Tree::TreeI
$nummut - number of mutations
$precision - optional # of digits for precision
maxcount
Title : maxcount Usage : $obj->maxcount($newval) Function: Returns : Maxcount value Args : newvalue (optional)
samples
Title : samples Usage : $obj->samples($newval) Function: Example : Returns : value of samples Args : newvalue (optional)
sample_size
Title : sample_size Usage : $obj->sample_size($newval) Function: Example : Returns : value of sample_size Args : newvalue (optional)
random
Title : random
Usage : my $rfloat = $node->random($size)
Function: Generates a random number between 0 and $size
This is abstracted so that someone can override and provide their
own special RNG. This is expected to be a uniform RNG.
Returns : Floating point random
Args : $maximum size for random number (defaults to 1)