rcpp_calc_anclikes_sp_COOweights_faster: Even faster version of rcpp_calc_anclikes_sp
In cladoRcpp: C++ Implementations of Phylogenetic Cladogenesis Calculations
Description
Usage
Arguments
Details
Value
Author(s)
See Also
Examples
Description
This function improves on rcpp_calc_anclikes_sp and
rcpp_calc_anclikes_sp_COOprobs. In addition to the compressed
COO-like storage format, the internal C++ code here explicitly
enumerates the allowed transitions, rather than searching through
every possibility and testing whether or not it is allowed. This
appears to scale well to very large state spaces.
Usage
1
2
3
4
5
Arguments
Rcpp_leftprobs
Probabilities of the states at the base of the left descendant branch
Rcpp_rightprobs
Probabilities of the states at the base of the right descendant branch
l
List of state indices (0-based)
s
Relative weight of sympatric "subset" speciation. Default s=1 mimics LAGRANGE model.
v
Relative weight of vicariant speciation. Default v=1 mimics LAGRANGE model.
j
Relative weight of "founder event speciation"/jump speciation. Default j=0 mimics LAGRANGE model.
y
Relative weight of fully sympatric speciation (range-copying). Default y=1 mimics LAGRANGE model.
dmat
If given, a matrix of rank numareas giving multipliers for the probability
of each dispersal event between areas. Default NULL, which sets every cell of the
dmat matrix to value 1. Users may construct their own parameterized dmat
(for example, making dmat a function of distance) for inclusion in ML or
Bayesian analyses.
maxent01s
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a subset-sympatric speciation event.
Default is NULL, which means the script will set up the LAGRANGE model (one descendent
always has range size 1).
maxent01v
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a vicariance speciation event.
Default is NULL, which means the script will set up the LAGRANGE model (one descendent
always has range size 1).
maxent01j
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a founder-event speciation event.
Default is NULL, which means the script will set up the LAGRANGE model (one descendent
always has range size 1).
maxent01y
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a full-sympatric (range-copying)
speciation event.
Default is NULL, which means the script will set up the LAGRANGE model (one descendent
always has range size 1).
max_minsize_as_function_of_ancsize
If given, any state with a range larger that this value will
be given a probability of zero (for the branch with the smaller rangesize). This means that not every
possible combination of ranges has to be checked, which can get very slow for large state spaces.
printmat
Should the probability matrix output be printed to screen? (useful for debugging, but
can be dramatically slow in R.app for some reason for even moderate numbers of states; perhaps
overrunning the line length...)
m
This is a vector of rate/weight multipliers for dispersal, conditional on the values of some
(non-biogeographical) trait. For example, one might hypothesize that flight/flightlessness effects
dispersal probability, and manually put a multiplier of 0.001 on the flightlessness state. Or,
one might attempt to estimate this. The strategy used in cladoRcpp is to expand the default cladogenetic
rate matrix by length(m) times. I.e., if m is not NULL, then loop through the values of m and apply the
multipliers to d (and j, and a) events. Default is NULL.
m_null_range
Is the null range included in the state space in the general
analysis? (The function needs to know this, when there are traits, to index
the state space correctly.)
jts_matrix
A numtraits x numtraits matrix containing the proportions for
trait transitions during j events. E.g., for a sudden switch from
trait 1 (flight) to trait 2 (flightlessness) during a jump event.
Details
This should be faster, i.e. by look for each type of event individually.
Returns results as 4 columns: ancestral index, left index, right index, conditional
probability given ancestral states (assuming likelihood of descendants is 1). Indexes
are 0-based.
Keep in mind that cladogenesis matrices exclude the null state
(a range of 0 areas), so if your states list starts with the
null range (as is typical/default in DEC-style models)
then to get the R 1-based state indices requires e.g.
COO_weights_columnar[[1]] + 2.
When the calculation is run at each node in the tree, all that is required is one
pass through the COO-like array, with the downpassed probabilities of the
states on the left and right branches multiplied by the probability column.
Value
COO_weights_columnar Transition weights matrix in COO-like format as 4 columns:
ancestral index, left index, right index, and weight of the specified transition. Indexes are
0-based.
Keep in mind that cladogenesis matrices exclude the null state
(a range of 0 areas), so if your states list starts with the
null range (as is typical/default in DEC-style models)
then to get the R 1-based state indices requires e.g.
COO_weights_columnar[[1]] + 2.
Dividing the
weights by the sum of the weights for a particular ancestral state yields the conditional
probabilities of each transition at the speciation event.
(assuming likelihood of descendants is 1).
Author(s)
Nicholas Matzke matzke@berkeley.edu
See Also
rcpp_calc_anclikes_sp, rcpp_calc_anclikes_sp_COOprobs,
rcpp_calc_anclikes_sp_COOweights_faster
rcpp_calc_anclikes_sp
#bibliography /Dropbox/_njm/__packages/cladoRcpp_setup/cladoRcpp_refs.bib
@cite Matzke_2013
@cite Matzke_2014
@cite ReeSmith2008
Examples
1
2
3
4
5
# For the basic logic of a probablistic cladogenesis model, see
?rcpp_calc_anclikes_sp
# For examples of running the functions, see the comparison of all functions at:
# ?cladoRcpp
cladoRcpp documentation built on May 2, 2019, 2:43 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Arguments Details Value Author(s) See Also Examples
Description
This function improves on rcpp_calc_anclikes_sp and
rcpp_calc_anclikes_sp_COOprobs. In addition to the compressed
COO-like storage format, the internal C++ code here explicitly
enumerates the allowed transitions, rather than searching through
every possibility and testing whether or not it is allowed. This
appears to scale well to very large state spaces.
Usage
1 2 3 4 5 |
Arguments
Rcpp_leftprobs |
Probabilities of the states at the base of the left descendant branch |
Rcpp_rightprobs |
Probabilities of the states at the base of the right descendant branch |
l |
List of state indices (0-based) |
s |
Relative weight of sympatric "subset" speciation. Default |
v |
Relative weight of vicariant speciation. Default |
j |
Relative weight of "founder event speciation"/jump speciation. Default |
y |
Relative weight of fully sympatric speciation (range-copying). Default |
dmat |
If given, a matrix of rank numareas giving multipliers for the probability
of each dispersal event between areas. Default NULL, which sets every cell of the
|
maxent01s |
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a subset-sympatric speciation event.
Default is |
maxent01v |
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a vicariance speciation event.
Default is |
maxent01j |
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a founder-event speciation event.
Default is |
maxent01y |
Matrix giving the relative weight of each possible descendant rangesize for
the smaller range, for a given ancestral rangesize, for a full-sympatric (range-copying)
speciation event.
Default is |
max_minsize_as_function_of_ancsize |
If given, any state with a range larger that this value will be given a probability of zero (for the branch with the smaller rangesize). This means that not every possible combination of ranges has to be checked, which can get very slow for large state spaces. |
printmat |
Should the probability matrix output be printed to screen? (useful for debugging, but can be dramatically slow in R.app for some reason for even moderate numbers of states; perhaps overrunning the line length...) |
m |
This is a vector of rate/weight multipliers for dispersal, conditional on the values of some
(non-biogeographical) trait. For example, one might hypothesize that flight/flightlessness effects
dispersal probability, and manually put a multiplier of 0.001 on the flightlessness state. Or,
one might attempt to estimate this. The strategy used in cladoRcpp is to expand the default cladogenetic
rate matrix by length(m) times. I.e., if m is not |
m_null_range |
Is the null range included in the state space in the general analysis? (The function needs to know this, when there are traits, to index the state space correctly.) |
jts_matrix |
A numtraits x numtraits matrix containing the proportions for trait transitions during j events. E.g., for a sudden switch from trait 1 (flight) to trait 2 (flightlessness) during a jump event. |
Details
This should be faster, i.e. by look for each type of event individually.
Returns results as 4 columns: ancestral index, left index, right index, conditional probability given ancestral states (assuming likelihood of descendants is 1). Indexes are 0-based.
Keep in mind that cladogenesis matrices exclude the null state (a range of 0 areas), so if your states list starts with the null range (as is typical/default in DEC-style models) then to get the R 1-based state indices requires e.g. COO_weights_columnar[[1]] + 2.
When the calculation is run at each node in the tree, all that is required is one pass through the COO-like array, with the downpassed probabilities of the states on the left and right branches multiplied by the probability column.
Value
COO_weights_columnar Transition weights matrix in COO-like format as 4 columns:
ancestral index, left index, right index, and weight of the specified transition. Indexes are
0-based.
Keep in mind that cladogenesis matrices exclude the null state
(a range of 0 areas), so if your states list starts with the
null range (as is typical/default in DEC-style models)
then to get the R 1-based state indices requires e.g.
COO_weights_columnar[[1]] + 2.
Dividing the weights by the sum of the weights for a particular ancestral state yields the conditional probabilities of each transition at the speciation event. (assuming likelihood of descendants is 1).
Author(s)
Nicholas Matzke matzke@berkeley.edu
See Also
rcpp_calc_anclikes_sp, rcpp_calc_anclikes_sp_COOprobs,
rcpp_calc_anclikes_sp_COOweights_faster
rcpp_calc_anclikes_sp
#bibliography /Dropbox/_njm/__packages/cladoRcpp_setup/cladoRcpp_refs.bib
@cite Matzke_2013
@cite Matzke_2014
@cite ReeSmith2008
Examples
1 2 3 4 5 | # For the basic logic of a probablistic cladogenesis model, see
?rcpp_calc_anclikes_sp
# For examples of running the functions, see the comparison of all functions at:
# ?cladoRcpp
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.