View source: R/chronBuilding.R
createChronMeasInputDf | R Documentation |
Create a data frame for chron measurement data
createChronMeasInputDf(
L,
chron.num = NA,
meas.table.num = NA,
lab.id.var = "labID",
age.14c.var = "age14C",
age.14c.uncertainty.var = "age14CUnc",
age.var = "age",
age.uncertainty.var = "ageUnc",
depth.var = "depth",
reservoir.age.14c.var = "reservoirAge",
reservoir.age.14c.uncertainty.var = "reservoirAge14C",
rejected.ages.var = "rejected",
split.ages = TRUE
)
L |
A LiPD object - an R serialization of a single LiPD file. It's a list, and is typically created by 'readLipd()' |
chron.num |
Which chron number to get data from |
meas.table.num |
an integer that corresponds to paleo.num measurementTable has the variable you want? |
lab.id.var |
Lab Id variable name |
age.14c.var |
Radiocarbon age variable name |
age.14c.uncertainty.var |
Radiocarbon age uncertainty variable name |
age.var |
Calibrated age variable name |
age.uncertainty.var |
Calibrated age uncertainty variable name |
depth.var |
Depth variable name |
reservoir.age.14c.var |
Reservoir age variable name |
reservoir.age.14c.uncertainty.var |
Reservoir age uncertainty variable name |
rejected.ages.var |
Rejected ages variable name |
split.ages |
if there's an age_type column, and only one age column, intelligently split between age and age14C (default = TRUE) |
a standardized dataframe of chron measurements
Other utility:
askUser()
,
concatEnsembleTimeseries()
,
convertAD2BP()
,
convertBP2AD()
,
gaussianize()
,
getLastVarString()
,
getOs()
,
heuristicUnits()
,
loadRemote()
,
pullInstance()
,
stringifyVariables()
,
surrogateDataFun()
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