markerSimParametric: Simulate marker data given IBD coefficients
In magnusdv/forrel: Forensic Pedigree Analysis and Relatedness Inference
markerSimParametric R Documentation
Simulate marker data given IBD coefficients
Description
This function simulates genotypes for two individuals given their IBD
distribution, for N identical markers.
Usage
markerSimParametric(
kappa = NULL,
delta = NULL,
states = NULL,
N = 1,
alleles = NULL,
afreq = NULL,
seed = NULL,
returnValue = c("singletons", "alleles", "genotypes", "internal")
)
Arguments
kappa
A probability vector of length 3, giving a set of realised kappa
coefficients (between two noninbred individuals).
delta
A probability vector of length 9, giving a set of condensed
identity coefficients (Jacquard coefficients).
states
An integer vector of length N, with entries in 1-9. Each
entry gives the identity state of the corresponding marker. (See details.)
N
A positive integer: the number of independent markers to be
simulated.
alleles
A vector with allele labels. If NULL, the following are tried
in order:
-
names(afreq)
‘seq_along(afreq)’
-
1:2 (fallback if both alleles and afreq are NULL)
afreq
A numeric vector with allele frequencies, possibly named with
allele labels.
seed
An integer seed for the random number generator (optional).
returnValue
Either "singleton" (default) or "alleles". (see Value).
Details
Exactly one of kappa, delta and states must be given; the other two
should remain NULL.
If states is given, it explicitly determines the condensed identity state
at each marker. The states are described by integers 1-9, using the tradition
order introduced by Jacquard.
If kappa is given, the states are generated by the command states = sample(9:7, size = N, replace = TRUE, prob = kappa). (Note that identity
states 9, 8, 7 correspond to IBD status 0, 1, 2, respectively.)
If delta is given, the states are generated by the command states = sample(1:9, size = N, replace = TRUE, prob = delta).
Value
The output depends on the value of the returnValue parameter:
"singletons": a list of two singletons with the simulated marker data
attached.
"alleles": a list of four vectors of length N, named a, b, c and
d. These contain the simulated alleles, where a/b and c/d are the
genotypes of the to individuals.
"genotypes": a list of two vectors of length N, containing the
simulated genotypes. Identical to paste(a, b, sep = "/") and paste(c, d, sep = "/"), where a, b, c, d are the vectors returned when
returnValue == "alleles".
"internal": similar to "alleles", but using the index integer of each
allele. (This option is mostly for internal use.)
Examples
# MZ twins
markerSimParametric(kappa = c(0,0,1), N = 5, alleles = 1:10)
# Equal distribution of states 1 and 2
markerSimParametric(delta = c(.5,.5,0,0,0,0,0,0,0), N = 5, alleles = 1:10)
# Force a specific sequence of states
markerSimParametric(states = c(1,2,7,8,9), N = 5, alleles = 1:10)
magnusdv/forrel documentation built on March 9, 2024, 4:05 a.m.
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| markerSimParametric | R Documentation |
Simulate marker data given IBD coefficients
Description
This function simulates genotypes for two individuals given their IBD distribution, for N identical markers.
Usage
markerSimParametric(
kappa = NULL,
delta = NULL,
states = NULL,
N = 1,
alleles = NULL,
afreq = NULL,
seed = NULL,
returnValue = c("singletons", "alleles", "genotypes", "internal")
)
Arguments
kappa |
A probability vector of length 3, giving a set of realised kappa coefficients (between two noninbred individuals). |
delta |
A probability vector of length 9, giving a set of condensed identity coefficients (Jacquard coefficients). |
states |
An integer vector of length |
N |
A positive integer: the number of independent markers to be simulated. |
alleles |
A vector with allele labels. If NULL, the following are tried in order:
|
afreq |
A numeric vector with allele frequencies, possibly named with allele labels. |
seed |
An integer seed for the random number generator (optional). |
returnValue |
Either "singleton" (default) or "alleles". (see Value). |
Details
Exactly one of kappa, delta and states must be given; the other two
should remain NULL.
If states is given, it explicitly determines the condensed identity state
at each marker. The states are described by integers 1-9, using the tradition
order introduced by Jacquard.
If kappa is given, the states are generated by the command states = sample(9:7, size = N, replace = TRUE, prob = kappa). (Note that identity
states 9, 8, 7 correspond to IBD status 0, 1, 2, respectively.)
If delta is given, the states are generated by the command states = sample(1:9, size = N, replace = TRUE, prob = delta).
Value
The output depends on the value of the returnValue parameter:
"singletons": a list of two singletons with the simulated marker data attached.
"alleles": a list of four vectors of length
N, nameda,b,candd. These contain the simulated alleles, where a/b and c/d are the genotypes of the to individuals."genotypes": a list of two vectors of length
N, containing the simulated genotypes. Identical topaste(a, b, sep = "/")andpaste(c, d, sep = "/"), wherea,b,c,dare the vectors returned whenreturnValue == "alleles"."internal": similar to "alleles", but using the index integer of each allele. (This option is mostly for internal use.)
Examples
# MZ twins
markerSimParametric(kappa = c(0,0,1), N = 5, alleles = 1:10)
# Equal distribution of states 1 and 2
markerSimParametric(delta = c(.5,.5,0,0,0,0,0,0,0), N = 5, alleles = 1:10)
# Force a specific sequence of states
markerSimParametric(states = c(1,2,7,8,9), N = 5, alleles = 1:10)
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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