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R/class-DrasdoHohmeModel.R
In CancerInSilico: An R interface for computational modeling of tumor progression
#' @include class-CellModel.R class-OffLatticeModel.R
NULL
library(methods)
################ Class Definition ################
#' @title DrasdoHohmeModel
#' @description Implementation of an off-latice cell-based model
#' based on the work in Drasdo, Hohme (2003)
#'
#' @slot nG number of monte carlo steps between each growth trial
#' @slot epsilon constant that controls the probability trails are accepted
#' @slot delta controls distance over which short range interactions occur
#' @export
setClass('DrasdoHohmeModel', contains = 'OffLatticeModel', slots = c(
nG = 'numeric',
epsilon = 'numeric',
delta = 'numeric'
))
#' DrasdoHohmeModel Constructor
#' @param .Object DrasdoHohmeModel object
#' @param nG number of trials per growth trial
#' @param epsilon model parameter
#' @param delta small scale interaction distance
#' @param ... extra parameters
#' @return initialized cell model
#' @importFrom methods slot validObject
setMethod('initialize', 'DrasdoHohmeModel',
function(.Object, nG = 28, epsilon = 10.0, delta = 0.2, ...)
{
# get supplied parameters
.Object@nG <- nG
.Object@epsilon <- epsilon
.Object@delta <- delta
# get min cycle length
types <- list(...)$cellTypes
if (is.null(types)) {types <- c(new('CellType', name = 'TEMP'))}
minCycle <- min(sapply(types, slot, name = 'minCycle'))
maxSize <- max(sapply(types, slot, name = 'size'))
# calculate time increment
t1 <- delta / (2 * nG * sqrt(maxSize) * (2 - sqrt(2)))
t2 <- delta * (minCycle - 2) / (4 * nG * sqrt(maxSize) * (sqrt(2)-1))
.Object@timeIncrement <- min(t1, t2)
# calculate off lattice parameters
.Object@maxTranslation <- delta / 2
.Object@maxRotation <- asin(delta / (4 * sqrt(maxSize)))
# finish intialization, return object
.Object <- callNextMethod(.Object, ...)
validObject(.Object)
return(.Object)
}
)
setValidity('DrasdoHohmeModel',
function(object)
{
if (length(object@nG) == 0)
"missing 'nG'"
else if (length(object@epsilon) == 0)
"missing 'epsilon'"
else if (length(object@delta) == 0)
"missing 'delta'"
else if (object@nG < 1)
"'nG' must be at least one"
else if (object@epsilon <= 0)
"'epsilon' must be greater than zero"
else if (object@delta <= 0)
"'delta' must be greater than zero"
}
)
##################### Methods ####################
#' @rdname run-methods
#' @aliases run
setMethod('run', signature('DrasdoHohmeModel'),
function(model)
{
return (cppRunModel(model, 'DrasdoHohme'))
}
)
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CancerInSilico documentation built on Nov. 8, 2020, 6:32 p.m.
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#' @include class-CellModel.R class-OffLatticeModel.R
NULL
library(methods)
################ Class Definition ################
#' @title DrasdoHohmeModel
#' @description Implementation of an off-latice cell-based model
#' based on the work in Drasdo, Hohme (2003)
#'
#' @slot nG number of monte carlo steps between each growth trial
#' @slot epsilon constant that controls the probability trails are accepted
#' @slot delta controls distance over which short range interactions occur
#' @export
setClass('DrasdoHohmeModel', contains = 'OffLatticeModel', slots = c(
nG = 'numeric',
epsilon = 'numeric',
delta = 'numeric'
))
#' DrasdoHohmeModel Constructor
#' @param .Object DrasdoHohmeModel object
#' @param nG number of trials per growth trial
#' @param epsilon model parameter
#' @param delta small scale interaction distance
#' @param ... extra parameters
#' @return initialized cell model
#' @importFrom methods slot validObject
setMethod('initialize', 'DrasdoHohmeModel',
function(.Object, nG = 28, epsilon = 10.0, delta = 0.2, ...)
{
# get supplied parameters
.Object@nG <- nG
.Object@epsilon <- epsilon
.Object@delta <- delta
# get min cycle length
types <- list(...)$cellTypes
if (is.null(types)) {types <- c(new('CellType', name = 'TEMP'))}
minCycle <- min(sapply(types, slot, name = 'minCycle'))
maxSize <- max(sapply(types, slot, name = 'size'))
# calculate time increment
t1 <- delta / (2 * nG * sqrt(maxSize) * (2 - sqrt(2)))
t2 <- delta * (minCycle - 2) / (4 * nG * sqrt(maxSize) * (sqrt(2)-1))
.Object@timeIncrement <- min(t1, t2)
# calculate off lattice parameters
.Object@maxTranslation <- delta / 2
.Object@maxRotation <- asin(delta / (4 * sqrt(maxSize)))
# finish intialization, return object
.Object <- callNextMethod(.Object, ...)
validObject(.Object)
return(.Object)
}
)
setValidity('DrasdoHohmeModel',
function(object)
{
if (length(object@nG) == 0)
"missing 'nG'"
else if (length(object@epsilon) == 0)
"missing 'epsilon'"
else if (length(object@delta) == 0)
"missing 'delta'"
else if (object@nG < 1)
"'nG' must be at least one"
else if (object@epsilon <= 0)
"'epsilon' must be greater than zero"
else if (object@delta <= 0)
"'delta' must be greater than zero"
}
)
##################### Methods ####################
#' @rdname run-methods
#' @aliases run
setMethod('run', signature('DrasdoHohmeModel'),
function(model)
{
return (cppRunModel(model, 'DrasdoHohme'))
}
)
Try the CancerInSilico package in your browser
Any scripts or data that you put into this service are public.
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.
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