R/init.dat.R
In glotaran/TIMP: Fitting Separable Nonlinear Models in Spectroscopy and Microscopy
setClass("dat", representation(
psi.df = "matrix", psi.weight = "matrix",
x = "vector", nt = "integer", x2 = "vector", nl = "integer",
C2 = "matrix", E2 = "matrix", sigma = "numeric",
mod_type = "character", parnames = "vector", dummy = "vector",
simdata = "logical", weightpar = "list",
weight = "logical", weightM = "matrix", weightsmooth = "list",
fixed = "list", clp0 = "list", makeps = "character",
clpequspec = "list", lclp0 = "logical", lclpequ = "logical",
title = "character", mhist = "list", datCall = "list",
dscalspec = "list", mvecind = "vector", dscal = "list",
drel = "vector", clpequ = "vector", scalx = "numeric",
prel = "vector", prelspec = "list", fvecind = "vector",
pvecind = "vector", nvecind = "vector",
iter = "numeric", free = "list",
clpCon = "list", ncomp = "numeric", clpdep = "logical",
inten = "matrix", positivepar = "vector", constrained = "list",
clinde = "list", chinde = "list", highcon = "vector",
lowcon = "vector", datafile = "character", getX = "logical",
clpType = "character", clpequspecBD = "list", compnames = "vector",
getXsuper = "logical", usecompnames0 = "logical",
usecompnamesequ = "logical", autoclp0 = "list", cohcol = "numeric",
weightList = "list", outMat = "matrix", satMat = "matrix",
lscalpar = "logical", thetascal = "vector"
),
prototype = list(
psi.df = matrix(), psi.weight = matrix(),
x = vector(), nt = integer(), x2 = vector(), nl = integer(),
C2 = matrix(), E2 = matrix(), sigma = numeric(),
mod_type = character(), simdata = logical(),
weightpar = list(), weight = FALSE, weightM = matrix(),
weightsmooth = list(), fixed = list(), clp0 = list(),
clpequspec = list(), clpCon = list(), lclp0 = logical(),
lclpequ = logical(), makeps = character(), title = character(),
mhist = list(), datCall = list(), nvecind = vector(),
dscal = list(), drel = vector(), mvecind = vector(),
scalx = 1, prel = vector(), prelspec = list(), fvecind = vector(),
pvecind = vector(), clpequ = vector(), free = list(),
iter = 1, ncomp = numeric(), clpdep = logical(), inten = matrix(),
parnames = vector(), dummy = vector(), positivepar = vector(), constrained = list(),
clinde = list(), chinde = list(), highcon = vector(),
lowcon = vector(), datafile = "", getX = FALSE,
clpType = "", clpequspecBD = list(), compnames = vector(),
getXsuper = FALSE, usecompnames0 = FALSE,
usecompnamesequ = FALSE, autoclp0 = list(), cohcol = 0,
weightList = list(), outMat = matrix(), satMat = matrix(),
lscalpar = FALSE, thetascal = vector()
)
)
setClass("kin", representation("dat",
kinpar = "vector", specpar =
"list", seqmod = "logical", irf = "logical", mirf = "logical",
reftau = "numeric", measured_irf = "vector", convalg =
"numeric", irffun = "character", irfpar = "vector", cohirf = "vector",
dispmu = "logical", dispmufun = "character", anipar = "vector",
parmu = "list", disptau = "logical", disptaufun = "character", partau =
"vector", fullk = "logical", kmat = "array", jvec = "vector",
anispec = "list", ncolc = "vector",
kinscal = "vector", kmatfit = "array", cohspec = "list", coh = "vector",
oscspec = "list", oscpar = "vector",
wavedep = "logical", lambdac = "numeric", speckin2 = "list",
usekin2 = "logical", kinpar2 = "vector",
kin2scal = "vector", amplitudes = "vector", streakT = "numeric",
streak = "logical", doublegaus = "logical", multiplegaus = "logical", fixedkmat = "logical",
kinscalspecialspec = "list", kinscalspecial = "list",
lightregimespec = "list",
numericalintegration = "logical", initialvals = "vector",
reactantstoichiometrymatrix = "vector",
stoichiometrymatrix = "vector"
),
prototype = list(
kinpar = vector(), seqmod =
TRUE, irf = FALSE, mirf = FALSE, measured_irf = vector(), convalg = 1,
cohirf = vector(), irffun = "gaus", anispec = list(), irfpar =
vector(), dispmu = FALSE, dispmufun = "poly", parmu = list(), anipar =
vector(), disptaufun = "poly", reftau = 0, specpar = list(),
partau = vector(), disptau = FALSE, fullk = FALSE,
kmat = array(), jvec = vector(),
ncolc = vector(), kinscal = vector(), kmatfit = array(),
cohspec = list(), coh = vector(), oscspec = list(), oscpar = vector(), wavedep = logical(),
lambdac = numeric(), speckin2 = list(), usekin2 = FALSE,
kinpar2 = vector(), kin2scal = vector(), amplitudes = vector(),
streakT = 0, streak = FALSE, doublegaus = FALSE, multiplegaus = FALSE, fixedkmat = FALSE,
kinscalspecialspec = list(), kinscalspecial = list(),
lightregimespec = list(), numericalintegration = FALSE,
initialvals = vector(),
reactantstoichiometrymatrix = vector(),
stoichiometrymatrix = vector()
)
)
setClass("mass",
representation("kin",
peakpar = "list",
amplitudes = "vector",
peakfunct = "character",
lzerofile = "character",
extracomp = "logical",
shift = "vector"
),
prototype = list(
peakpar = list(),
peakfunct = "expmodgaus",
lzerofile = "",
amplitudes = vector(),
getX = TRUE,
extracomp = TRUE,
shift = vector()
)
)
setClass("spec", representation("dat",
clpequ = "vector",
specpar = "list", specfun = "character", specref = "numeric",
specCon = "list", ncole = "vector", specdisp = "logical",
specdisppar = "list", specdispindex = "vector", nupow = "numeric",
timedep = "logical", parmufunc = "character"
),
prototype = list(
specpar = list(), specfun = "gaus",
specCon = list(), ncole = vector(), specdisp = FALSE,
specdisppar = list(), specdispindex = vector(), specref =
numeric(), nupow = 5, clpequ = vector(),
timedep = FALSE, parmufunc = "poly"
)
)
setClass("amp", representation("dat", amps = "list"),
prototype = list(amps = list(), clpdep = FALSE)
)
glotaran/TIMP documentation built on Feb. 11, 2023, 4:11 a.m.
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setClass("dat", representation(
psi.df = "matrix", psi.weight = "matrix",
x = "vector", nt = "integer", x2 = "vector", nl = "integer",
C2 = "matrix", E2 = "matrix", sigma = "numeric",
mod_type = "character", parnames = "vector", dummy = "vector",
simdata = "logical", weightpar = "list",
weight = "logical", weightM = "matrix", weightsmooth = "list",
fixed = "list", clp0 = "list", makeps = "character",
clpequspec = "list", lclp0 = "logical", lclpequ = "logical",
title = "character", mhist = "list", datCall = "list",
dscalspec = "list", mvecind = "vector", dscal = "list",
drel = "vector", clpequ = "vector", scalx = "numeric",
prel = "vector", prelspec = "list", fvecind = "vector",
pvecind = "vector", nvecind = "vector",
iter = "numeric", free = "list",
clpCon = "list", ncomp = "numeric", clpdep = "logical",
inten = "matrix", positivepar = "vector", constrained = "list",
clinde = "list", chinde = "list", highcon = "vector",
lowcon = "vector", datafile = "character", getX = "logical",
clpType = "character", clpequspecBD = "list", compnames = "vector",
getXsuper = "logical", usecompnames0 = "logical",
usecompnamesequ = "logical", autoclp0 = "list", cohcol = "numeric",
weightList = "list", outMat = "matrix", satMat = "matrix",
lscalpar = "logical", thetascal = "vector"
),
prototype = list(
psi.df = matrix(), psi.weight = matrix(),
x = vector(), nt = integer(), x2 = vector(), nl = integer(),
C2 = matrix(), E2 = matrix(), sigma = numeric(),
mod_type = character(), simdata = logical(),
weightpar = list(), weight = FALSE, weightM = matrix(),
weightsmooth = list(), fixed = list(), clp0 = list(),
clpequspec = list(), clpCon = list(), lclp0 = logical(),
lclpequ = logical(), makeps = character(), title = character(),
mhist = list(), datCall = list(), nvecind = vector(),
dscal = list(), drel = vector(), mvecind = vector(),
scalx = 1, prel = vector(), prelspec = list(), fvecind = vector(),
pvecind = vector(), clpequ = vector(), free = list(),
iter = 1, ncomp = numeric(), clpdep = logical(), inten = matrix(),
parnames = vector(), dummy = vector(), positivepar = vector(), constrained = list(),
clinde = list(), chinde = list(), highcon = vector(),
lowcon = vector(), datafile = "", getX = FALSE,
clpType = "", clpequspecBD = list(), compnames = vector(),
getXsuper = FALSE, usecompnames0 = FALSE,
usecompnamesequ = FALSE, autoclp0 = list(), cohcol = 0,
weightList = list(), outMat = matrix(), satMat = matrix(),
lscalpar = FALSE, thetascal = vector()
)
)
setClass("kin", representation("dat",
kinpar = "vector", specpar =
"list", seqmod = "logical", irf = "logical", mirf = "logical",
reftau = "numeric", measured_irf = "vector", convalg =
"numeric", irffun = "character", irfpar = "vector", cohirf = "vector",
dispmu = "logical", dispmufun = "character", anipar = "vector",
parmu = "list", disptau = "logical", disptaufun = "character", partau =
"vector", fullk = "logical", kmat = "array", jvec = "vector",
anispec = "list", ncolc = "vector",
kinscal = "vector", kmatfit = "array", cohspec = "list", coh = "vector",
oscspec = "list", oscpar = "vector",
wavedep = "logical", lambdac = "numeric", speckin2 = "list",
usekin2 = "logical", kinpar2 = "vector",
kin2scal = "vector", amplitudes = "vector", streakT = "numeric",
streak = "logical", doublegaus = "logical", multiplegaus = "logical", fixedkmat = "logical",
kinscalspecialspec = "list", kinscalspecial = "list",
lightregimespec = "list",
numericalintegration = "logical", initialvals = "vector",
reactantstoichiometrymatrix = "vector",
stoichiometrymatrix = "vector"
),
prototype = list(
kinpar = vector(), seqmod =
TRUE, irf = FALSE, mirf = FALSE, measured_irf = vector(), convalg = 1,
cohirf = vector(), irffun = "gaus", anispec = list(), irfpar =
vector(), dispmu = FALSE, dispmufun = "poly", parmu = list(), anipar =
vector(), disptaufun = "poly", reftau = 0, specpar = list(),
partau = vector(), disptau = FALSE, fullk = FALSE,
kmat = array(), jvec = vector(),
ncolc = vector(), kinscal = vector(), kmatfit = array(),
cohspec = list(), coh = vector(), oscspec = list(), oscpar = vector(), wavedep = logical(),
lambdac = numeric(), speckin2 = list(), usekin2 = FALSE,
kinpar2 = vector(), kin2scal = vector(), amplitudes = vector(),
streakT = 0, streak = FALSE, doublegaus = FALSE, multiplegaus = FALSE, fixedkmat = FALSE,
kinscalspecialspec = list(), kinscalspecial = list(),
lightregimespec = list(), numericalintegration = FALSE,
initialvals = vector(),
reactantstoichiometrymatrix = vector(),
stoichiometrymatrix = vector()
)
)
setClass("mass",
representation("kin",
peakpar = "list",
amplitudes = "vector",
peakfunct = "character",
lzerofile = "character",
extracomp = "logical",
shift = "vector"
),
prototype = list(
peakpar = list(),
peakfunct = "expmodgaus",
lzerofile = "",
amplitudes = vector(),
getX = TRUE,
extracomp = TRUE,
shift = vector()
)
)
setClass("spec", representation("dat",
clpequ = "vector",
specpar = "list", specfun = "character", specref = "numeric",
specCon = "list", ncole = "vector", specdisp = "logical",
specdisppar = "list", specdispindex = "vector", nupow = "numeric",
timedep = "logical", parmufunc = "character"
),
prototype = list(
specpar = list(), specfun = "gaus",
specCon = list(), ncole = vector(), specdisp = FALSE,
specdisppar = list(), specdispindex = vector(), specref =
numeric(), nupow = 5, clpequ = vector(),
timedep = FALSE, parmufunc = "poly"
)
)
setClass("amp", representation("dat", amps = "list"),
prototype = list(amps = list(), clpdep = FALSE)
)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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