Nothing
R/transforms.R
In flowUtils: Utilities for flow cytometry
Defines functions
transEH
transHyperLog
transInvSplitScale
transSplitScale
transHyperbolicSin
transInverseHyperbolicSin
transExponential
transLogarithm
transSquareroot
transQuadratic
transRatio
transDg1polynomial
fratioTr
hyperlogTr
logicleTr
flogTr
flinTr
fasinhTr
dispatchTransform
dispatchGatingML2Transform
setMethod("identifyNode", "http...www.isac.net.org.std.Gating.ML.v2.0.transformations_transformation",
function(object,flowEnv,...)
{
if (flowEnv[['.flowUtilsRead.GatingML.PassNo']] == 1)
{
transName=sapply(xmlChildren(object), xmlName)
dispatchGatingML2Transform(transName, object, flowEnv)
}
}
)
dispatchGatingML2Transform <- function(transName, node, flowEnv)
{
if (length(transName) > 1) transName = transName[[length(transName)]]
temp = switch(transName,
"fasinh" = fasinhTr(node, flowEnv),
"flin" = flinTr(node, flowEnv),
"flog" = flogTr(node, flowEnv),
"logicle" = logicleTr(node, flowEnv),
"hyperlog" = hyperlogTr(node, flowEnv),
"fratio" = fratioTr(node, flowEnv)
)
name=as.character(slot(temp,"transformationId"))
flowEnv[[name]]=temp
temp
}
setMethod("identifyNode","http...www.isac.net.org.std.Gating.ML.v1.5.transformations_transformation",
function(object,flowEnv,...)
{
transName=sapply(xmlChildren(object),xmlName)
dispatchTransform(transName,object,flowEnv)
}
)
dispatchTransform<-function(transName,node,flowEnv)
{
temp=switch(transName,
"split-scale"=transSplitScale(node,flowEnv),
"ratio"=transRatio(node,flowEnv),
"dg1polynomial"=transDg1polynomial(node,flowEnv),
"quadratic"=transQuadratic(node,flowEnv),
"sqrt"=transSquareroot(node,flowEnv),
"ln"=transLogarithm(node,flowEnv),
"exponential"=transExponential(node,flowEnv),
"asinh"=transInverseHyperbolicSin(node,flowEnv),
"sinh"=transHyperbolicSin(node,flowEnv),
"inverse-split-scale"=transInvSplitScale(node,flowEnv),
"compensation"=transCompensation(node,flowEnv),
"hyperlog"=transHyperLog(node,flowEnv),
"EH"=transEH(node,flowEnv)
)
name=as.character(slot(temp,"transformationId"))
flowEnv[[name]]=temp
temp
}
####################################################
####--------- Gating-ML 2.0 transforms -------------
####################################################
# NOTE TO ALL Gating-ML 2.0 scale transforms:
# *******************************************
# Gating-ML 2.0 transforms are defined as applicable to any FCS parameters, so we will create one
# "placeholder" transformation with parameters = "any" and later on, when a transformation is
# actually needed (i.e., paired with FCS parameters), then we will "copy" this transformation and
# fill out the parameters accodingly.
####----------- fasinh transformation --------------
fasinhTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "fasinh", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pA = sapply(coefficientList, xmlGetAttr, "A", default=0) # method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(asinhtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- flin transformation --------------
flinTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "flin", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use defaults
pA = sapply(coefficientList, xmlGetAttr, "A", default=0) # here or just let the method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(lintGml2(parameters = "any", T = as.numeric(pT), A = as.numeric(pA),
transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- flog transformation --------------
flogTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "flog", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use defaults
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # here or just let the method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(logtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Logicle transformation --------------
logicleTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "logicle", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pW = sapply(coefficientList, xmlGetAttr, "W", default=0.5) # method fail...
pA = sapply(coefficientList, xmlGetAttr, "A", default=0)
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(logicletGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
W = as.numeric(pW), A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Hyperlog transformation --------------
hyperlogTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "hyperlog", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pW = sapply(coefficientList, xmlGetAttr, "W", default=0.5) # method fail...
pA = sapply(coefficientList, xmlGetAttr, "A", default=0)
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(hyperlogtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
W = as.numeric(pW), A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Ratio transformation --------------
# Note that unlike the scale transformations above, the Gating-ML 2.0
# ratio (fratio) transformation is not applicable on arbitrary parameters.
# Instead, the parameters are specified when the transformation is defined.
# Therefore, we don't need to do create the generic version with "any" parameters.
fratioTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "fratio", recursive=FALSE)
pA = sapply(coefficientList, xmlGetAttr, "A", default=1) # It's questionable whether to use
pB = sapply(coefficientList, xmlGetAttr, "B", default=0) # defaults here or just let the
pC = sapply(coefficientList, xmlGetAttr, "C", default=0) # method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
parameters <- getGatingML2RatioParameterList(node, flowEnv)
return(ratiotGml2(numerator = parameters[[1]], denominator = parameters[[2]], pA = as.numeric(pA),
pB = as.numeric(pB), pC = as.numeric(pC), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####################################################
####--------- Gating-ML 1.5 transforms -------------
####################################################
####----------Degree n polynomial ------------------
transDg1polynomial<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"coefficient",recursive=TRUE)
len=length(coefficientList)-1
values=sapply(coefficientList,xmlGetAttr,"value")
a=as.numeric(values[1:len])
b=as.numeric(values[len+1])
parameters<-getParameterList(node,0,flowEnv)
parm=new("parameters",.Data=parameters)
return(dg1polynomial(parameters=parm,a=a,b=b,transformationId=transformationId))
}
####-----------Ratio transformation ------------------
transRatio<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
parameters<-getParameterList(node,1,flowEnv)
return(ratio(numerator=parameters[[1]],denominator=parameters[[2]],transformationId=transformationId))
}
####-----------Quadratic transformation ------------------
transQuadratic<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"quadratic",recursive=FALSE)
coefficients=sapply(coefficientList,xmlGetAttr,"a")
parameters<-getParameterList(node,1,flowEnv)
return(quadratic(parameters=parameters[[1]],a=as.numeric(coefficients),transformationId=transformationId))
}
####-----------Square root transformation ------------------
transSquareroot<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"sqrt",recursive=FALSE)
coefficients=sapply(coefficientList,xmlGetAttr,"a")
parameters<-getParameterList(node,1,flowEnv)
return(squareroot(parameters=parameters[[1]],a=as.numeric(coefficients),transformationId=transformationId))
}
####-----------Logarithmic transformation ------------------
transLogarithm<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"ln",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(logarithm(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Exponential transformation ------------------
transExponential<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"exponential",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,1,flowEnv)
return(exponential(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Inverse Hyperbolic sin transformation ------------------
transInverseHyperbolicSin<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"asinh",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(asinht(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Hyperbolic sin transformation ------------------
transHyperbolicSin<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"sinh",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(sinht(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Split scale transformation ------------------
transSplitScale<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"split-scale",recursive=FALSE)
r=sapply(coefficientList,xmlGetAttr,"r")
maxValue=sapply(coefficientList,xmlGetAttr,"maxValue")
transitionChannel=sapply(coefficientList,xmlGetAttr,"transitionChannel")
parameters<-getParameterList(node,0,flowEnv)
return(splitscale(parameters=parameters[[1]],r=as.numeric(r),maxValue=as.numeric(maxValue),transitionChannel=as.numeric(transitionChannel),transformationId=transformationId))
}
####-----------Inverse Split scale transformation ------------------
transInvSplitScale<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"inverse-split-scale",recursive=FALSE)
r=sapply(coefficientList,xmlGetAttr,"r")
maxValue=sapply(coefficientList,xmlGetAttr,"maxValue")
transitionChannel=sapply(coefficientList,xmlGetAttr,"transitionChannel")
parameters<-getParameterList(node,0,flowEnv)
return(invsplitscale(parameters=parameters[[1]],r=as.numeric(r),maxValue=as.numeric(maxValue),transitionChannel=as.numeric(transitionChannel),transformationId=transformationId))
}
transHyperLog<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"hyperlog",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(hyperlog(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
transEH<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"EH",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(EHtrans(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
Try the flowUtils package in your browser
Any scripts or data that you put into this service are public.
flowUtils documentation built on Nov. 8, 2020, 6:29 p.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.
Defines functions transEH transHyperLog transInvSplitScale transSplitScale transHyperbolicSin transInverseHyperbolicSin transExponential transLogarithm transSquareroot transQuadratic transRatio transDg1polynomial fratioTr hyperlogTr logicleTr flogTr flinTr fasinhTr dispatchTransform dispatchGatingML2Transform
setMethod("identifyNode", "http...www.isac.net.org.std.Gating.ML.v2.0.transformations_transformation",
function(object,flowEnv,...)
{
if (flowEnv[['.flowUtilsRead.GatingML.PassNo']] == 1)
{
transName=sapply(xmlChildren(object), xmlName)
dispatchGatingML2Transform(transName, object, flowEnv)
}
}
)
dispatchGatingML2Transform <- function(transName, node, flowEnv)
{
if (length(transName) > 1) transName = transName[[length(transName)]]
temp = switch(transName,
"fasinh" = fasinhTr(node, flowEnv),
"flin" = flinTr(node, flowEnv),
"flog" = flogTr(node, flowEnv),
"logicle" = logicleTr(node, flowEnv),
"hyperlog" = hyperlogTr(node, flowEnv),
"fratio" = fratioTr(node, flowEnv)
)
name=as.character(slot(temp,"transformationId"))
flowEnv[[name]]=temp
temp
}
setMethod("identifyNode","http...www.isac.net.org.std.Gating.ML.v1.5.transformations_transformation",
function(object,flowEnv,...)
{
transName=sapply(xmlChildren(object),xmlName)
dispatchTransform(transName,object,flowEnv)
}
)
dispatchTransform<-function(transName,node,flowEnv)
{
temp=switch(transName,
"split-scale"=transSplitScale(node,flowEnv),
"ratio"=transRatio(node,flowEnv),
"dg1polynomial"=transDg1polynomial(node,flowEnv),
"quadratic"=transQuadratic(node,flowEnv),
"sqrt"=transSquareroot(node,flowEnv),
"ln"=transLogarithm(node,flowEnv),
"exponential"=transExponential(node,flowEnv),
"asinh"=transInverseHyperbolicSin(node,flowEnv),
"sinh"=transHyperbolicSin(node,flowEnv),
"inverse-split-scale"=transInvSplitScale(node,flowEnv),
"compensation"=transCompensation(node,flowEnv),
"hyperlog"=transHyperLog(node,flowEnv),
"EH"=transEH(node,flowEnv)
)
name=as.character(slot(temp,"transformationId"))
flowEnv[[name]]=temp
temp
}
####################################################
####--------- Gating-ML 2.0 transforms -------------
####################################################
# NOTE TO ALL Gating-ML 2.0 scale transforms:
# *******************************************
# Gating-ML 2.0 transforms are defined as applicable to any FCS parameters, so we will create one
# "placeholder" transformation with parameters = "any" and later on, when a transformation is
# actually needed (i.e., paired with FCS parameters), then we will "copy" this transformation and
# fill out the parameters accodingly.
####----------- fasinh transformation --------------
fasinhTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "fasinh", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pA = sapply(coefficientList, xmlGetAttr, "A", default=0) # method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(asinhtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- flin transformation --------------
flinTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "flin", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use defaults
pA = sapply(coefficientList, xmlGetAttr, "A", default=0) # here or just let the method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(lintGml2(parameters = "any", T = as.numeric(pT), A = as.numeric(pA),
transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- flog transformation --------------
flogTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "flog", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use defaults
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # here or just let the method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(logtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Logicle transformation --------------
logicleTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "logicle", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pW = sapply(coefficientList, xmlGetAttr, "W", default=0.5) # method fail...
pA = sapply(coefficientList, xmlGetAttr, "A", default=0)
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(logicletGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
W = as.numeric(pW), A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Hyperlog transformation --------------
hyperlogTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "hyperlog", recursive=FALSE)
pT = sapply(coefficientList, xmlGetAttr, "T", default=262144) # It's questionable whether to use
pM = sapply(coefficientList, xmlGetAttr, "M", default=4.5) # defaults here or just let the
pW = sapply(coefficientList, xmlGetAttr, "W", default=0.5) # method fail...
pA = sapply(coefficientList, xmlGetAttr, "A", default=0)
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
return(hyperlogtGml2(parameters = "any", T = as.numeric(pT), M = as.numeric(pM),
W = as.numeric(pW), A = as.numeric(pA), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####----------- Ratio transformation --------------
# Note that unlike the scale transformations above, the Gating-ML 2.0
# ratio (fratio) transformation is not applicable on arbitrary parameters.
# Instead, the parameters are specified when the transformation is defined.
# Therefore, we don't need to do create the generic version with "any" parameters.
fratioTr <- function(node, flowEnv)
{
transformationId = (xmlGetAttr(node, "id", genid(flowEnv)))
coefficientList = xmlElementsByTagName(node, "fratio", recursive=FALSE)
pA = sapply(coefficientList, xmlGetAttr, "A", default=1) # It's questionable whether to use
pB = sapply(coefficientList, xmlGetAttr, "B", default=0) # defaults here or just let the
pC = sapply(coefficientList, xmlGetAttr, "C", default=0) # method fail...
boundMin = (xmlGetAttr(node, "boundMin", -Inf))
boundMax = (xmlGetAttr(node, "boundMax", Inf))
parameters <- getGatingML2RatioParameterList(node, flowEnv)
return(ratiotGml2(numerator = parameters[[1]], denominator = parameters[[2]], pA = as.numeric(pA),
pB = as.numeric(pB), pC = as.numeric(pC), transformationId = transformationId,
boundMin = as.numeric(boundMin), boundMax = as.numeric(boundMax)))
}
####################################################
####--------- Gating-ML 1.5 transforms -------------
####################################################
####----------Degree n polynomial ------------------
transDg1polynomial<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"coefficient",recursive=TRUE)
len=length(coefficientList)-1
values=sapply(coefficientList,xmlGetAttr,"value")
a=as.numeric(values[1:len])
b=as.numeric(values[len+1])
parameters<-getParameterList(node,0,flowEnv)
parm=new("parameters",.Data=parameters)
return(dg1polynomial(parameters=parm,a=a,b=b,transformationId=transformationId))
}
####-----------Ratio transformation ------------------
transRatio<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
parameters<-getParameterList(node,1,flowEnv)
return(ratio(numerator=parameters[[1]],denominator=parameters[[2]],transformationId=transformationId))
}
####-----------Quadratic transformation ------------------
transQuadratic<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"quadratic",recursive=FALSE)
coefficients=sapply(coefficientList,xmlGetAttr,"a")
parameters<-getParameterList(node,1,flowEnv)
return(quadratic(parameters=parameters[[1]],a=as.numeric(coefficients),transformationId=transformationId))
}
####-----------Square root transformation ------------------
transSquareroot<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"sqrt",recursive=FALSE)
coefficients=sapply(coefficientList,xmlGetAttr,"a")
parameters<-getParameterList(node,1,flowEnv)
return(squareroot(parameters=parameters[[1]],a=as.numeric(coefficients),transformationId=transformationId))
}
####-----------Logarithmic transformation ------------------
transLogarithm<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"ln",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(logarithm(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Exponential transformation ------------------
transExponential<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"exponential",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,1,flowEnv)
return(exponential(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Inverse Hyperbolic sin transformation ------------------
transInverseHyperbolicSin<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"asinh",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(asinht(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Hyperbolic sin transformation ------------------
transHyperbolicSin<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"sinh",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(sinht(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
####-----------Split scale transformation ------------------
transSplitScale<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"split-scale",recursive=FALSE)
r=sapply(coefficientList,xmlGetAttr,"r")
maxValue=sapply(coefficientList,xmlGetAttr,"maxValue")
transitionChannel=sapply(coefficientList,xmlGetAttr,"transitionChannel")
parameters<-getParameterList(node,0,flowEnv)
return(splitscale(parameters=parameters[[1]],r=as.numeric(r),maxValue=as.numeric(maxValue),transitionChannel=as.numeric(transitionChannel),transformationId=transformationId))
}
####-----------Inverse Split scale transformation ------------------
transInvSplitScale<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"inverse-split-scale",recursive=FALSE)
r=sapply(coefficientList,xmlGetAttr,"r")
maxValue=sapply(coefficientList,xmlGetAttr,"maxValue")
transitionChannel=sapply(coefficientList,xmlGetAttr,"transitionChannel")
parameters<-getParameterList(node,0,flowEnv)
return(invsplitscale(parameters=parameters[[1]],r=as.numeric(r),maxValue=as.numeric(maxValue),transitionChannel=as.numeric(transitionChannel),transformationId=transformationId))
}
transHyperLog<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"hyperlog",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(hyperlog(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
transEH<-function(node,flowEnv)
{
transformationId=(xmlGetAttr(node,"id",genid(flowEnv)))
coefficientList=xmlElementsByTagName(node,"EH",recursive=FALSE)
a=sapply(coefficientList,xmlGetAttr,"a")
b=sapply(coefficientList,xmlGetAttr,"b")
parameters<-getParameterList(node,0,flowEnv)
return(EHtrans(parameters=parameters[[1]],a=as.numeric(a),b=as.numeric(b),transformationId=transformationId))
}
Try the flowUtils 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.
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.