tests/testthat/test-Rumford_1.R
In ArkaB-DS/nlsj: JN radical alternative to port of stats::nls()
# NLSProbName: Rumford_1.R
# NLSProbDescription: {The Rumford data frame has 13 rows and 2 columns from an experiment by Count Rumford on the
# rate of cooling.
# The two columns are:This data frame contains the following columns:
# `time`: a numeric vector giving the time since the beginning of the experiment (hr)
# `temp`: a numeric vector giving the temperature (degrees Fahrenheit) of the cannon.
# }
# Use the Rumford data from NRAIA package
## DATA
time=c(4.0, 5.0, 7.0, 12.0, 14.0, 16.0, 20.0, 24.0, 28.0, 31.0, 34.0, 37.5, 41.0)
temp = c(126, 125, 123, 120, 119, 118, 116, 115, 114, 113, 112, 111, 110)
NLStestdata <- data.frame(time,temp)
## STARTING VALUE
tc = -0.01
NLSstart <-c(tc = tc) # a starting vector (named!)
## MODEL
NLSformula <-temp ~ 60 + 70 * exp(tc * time)
NLSlower <- NULL
NLSupper <- NULL
NLSrunline <- "(formula=NLSformula, data=NLStestdata, start=NLSstart)"
output_nls <- eval(parse(text=paste("nls",NLSrunline))) # nls is our benchmark case
output_nlsj <- eval(parse(text=paste("nlsj::nlsj",NLSrunline))) # nlsj is the new nls
## Test expectations using testthat
#library(testthat) # comment out later!!
#### TESTING nls VS nlsj
# SETTING TOLERANCE
epstol <- sqrt(.Machine$double.eps*100) # Can replace 100 with nls.control()$offset
# NLSout/expout has "m", "convInfo", "data", "call",
# "dataClasses", "control"
## testing m values: "resid" "fitted" "formula" "deviance" "lhs"
# "gradient" "conv" "incr" "setVarying" "setPars"
# "getPars" "getAllPars" "getEnv" "trace" "Rmat"
# "predict"
test_that("testing m objects",{ #FAILED
# residuals
expect_equal(as.vector(resid(output_nls)),
as.vector(resid(output_nlsj)),
tolerance=epstol*(max(abs(c(as.vector(resid(output_nls)),
as.vector(resid(output_nlsj)))
)) + epstol))
# # fitted
# expect_equal(as.vector(fitted(output_nls)),
# as.vector(fitted(output_nlsj)))
# # formula
# expect_equal(formula(output_nls),
# formula(output_nlsj))
# deviance
expect_equal(deviance(output_nls),
deviance(output_nlsj),
tolerance=epstol*(max(abs(c(deviance(output_nls),
deviance(output_nlsj))
)) + epstol))
# gradient
expect_equal( output_nls$m$gradient(),
attr(output_nlsj$m$resid(),"gradient"),
tolerance=epstol*(max(abs(c(output_nls$m$gradient(),
attr(output_nlsj$m$resid(),"gradient"))
)) + epstol))
# # conv
# expect_equal( output_nls$m$conv(),
# output_nlsj$m$conv())
# # incr
# expect_equal( output_nls$m$incr(),
# output_nlsj$m$incr())
# # getPars # difference between getAllPars adn getPars?
expect_equal( output_nls$m$getPars(),
output_nlsj$m$getPars())
# # getEnv
# expect_equal( output_nls$m$igetEnv(),
# output_nlsj$m$getEnv())
# # trace
# ##expect_equal( output_nls$m$trace(), ## Not run as it prints(devaince,conv,pars)
# ## output_nlsj$m$trace())
# Rmat
expect_equal( output_nls$m$Rmat(),
output_nlsj$m$Rmat(),
tolerance=epstol*(max(abs(c(output_nls$m$Rmat(),
output_nls$m$Rmat())
)) + epstol))
# # predict
# expect_equal( output_nls$m$predict(),
# output_nlsj$m$predict())
}
)
## testing control #FAILED
#test_that("testing control list items",{
# expect_equal(output_nls$control,
# output_nlsj$control)
# }
#)
# testing convInfo # FAILED
test_that("testing conInfo list items",{
expect_equal(as.numeric(output_nls$convInfo$isConv),
as.numeric(output_nlsj$convInfo))
}
)
#rm(temp,time)
#rm("NLSformula","NLSrunline","NLSstart","NLStestdata",
# "NLSupper","NLSlower","output_nls","output_nlsj","epstol")
print("End of test file 'Rumford_1.R' ")
#-----------------------------------------#
ArkaB-DS/nlsj documentation built on Dec. 17, 2021, 9:43 a.m.
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# NLSProbName: Rumford_1.R
# NLSProbDescription: {The Rumford data frame has 13 rows and 2 columns from an experiment by Count Rumford on the
# rate of cooling.
# The two columns are:This data frame contains the following columns:
# `time`: a numeric vector giving the time since the beginning of the experiment (hr)
# `temp`: a numeric vector giving the temperature (degrees Fahrenheit) of the cannon.
# }
# Use the Rumford data from NRAIA package
## DATA
time=c(4.0, 5.0, 7.0, 12.0, 14.0, 16.0, 20.0, 24.0, 28.0, 31.0, 34.0, 37.5, 41.0)
temp = c(126, 125, 123, 120, 119, 118, 116, 115, 114, 113, 112, 111, 110)
NLStestdata <- data.frame(time,temp)
## STARTING VALUE
tc = -0.01
NLSstart <-c(tc = tc) # a starting vector (named!)
## MODEL
NLSformula <-temp ~ 60 + 70 * exp(tc * time)
NLSlower <- NULL
NLSupper <- NULL
NLSrunline <- "(formula=NLSformula, data=NLStestdata, start=NLSstart)"
output_nls <- eval(parse(text=paste("nls",NLSrunline))) # nls is our benchmark case
output_nlsj <- eval(parse(text=paste("nlsj::nlsj",NLSrunline))) # nlsj is the new nls
## Test expectations using testthat
#library(testthat) # comment out later!!
#### TESTING nls VS nlsj
# SETTING TOLERANCE
epstol <- sqrt(.Machine$double.eps*100) # Can replace 100 with nls.control()$offset
# NLSout/expout has "m", "convInfo", "data", "call",
# "dataClasses", "control"
## testing m values: "resid" "fitted" "formula" "deviance" "lhs"
# "gradient" "conv" "incr" "setVarying" "setPars"
# "getPars" "getAllPars" "getEnv" "trace" "Rmat"
# "predict"
test_that("testing m objects",{ #FAILED
# residuals
expect_equal(as.vector(resid(output_nls)),
as.vector(resid(output_nlsj)),
tolerance=epstol*(max(abs(c(as.vector(resid(output_nls)),
as.vector(resid(output_nlsj)))
)) + epstol))
# # fitted
# expect_equal(as.vector(fitted(output_nls)),
# as.vector(fitted(output_nlsj)))
# # formula
# expect_equal(formula(output_nls),
# formula(output_nlsj))
# deviance
expect_equal(deviance(output_nls),
deviance(output_nlsj),
tolerance=epstol*(max(abs(c(deviance(output_nls),
deviance(output_nlsj))
)) + epstol))
# gradient
expect_equal( output_nls$m$gradient(),
attr(output_nlsj$m$resid(),"gradient"),
tolerance=epstol*(max(abs(c(output_nls$m$gradient(),
attr(output_nlsj$m$resid(),"gradient"))
)) + epstol))
# # conv
# expect_equal( output_nls$m$conv(),
# output_nlsj$m$conv())
# # incr
# expect_equal( output_nls$m$incr(),
# output_nlsj$m$incr())
# # getPars # difference between getAllPars adn getPars?
expect_equal( output_nls$m$getPars(),
output_nlsj$m$getPars())
# # getEnv
# expect_equal( output_nls$m$igetEnv(),
# output_nlsj$m$getEnv())
# # trace
# ##expect_equal( output_nls$m$trace(), ## Not run as it prints(devaince,conv,pars)
# ## output_nlsj$m$trace())
# Rmat
expect_equal( output_nls$m$Rmat(),
output_nlsj$m$Rmat(),
tolerance=epstol*(max(abs(c(output_nls$m$Rmat(),
output_nls$m$Rmat())
)) + epstol))
# # predict
# expect_equal( output_nls$m$predict(),
# output_nlsj$m$predict())
}
)
## testing control #FAILED
#test_that("testing control list items",{
# expect_equal(output_nls$control,
# output_nlsj$control)
# }
#)
# testing convInfo # FAILED
test_that("testing conInfo list items",{
expect_equal(as.numeric(output_nls$convInfo$isConv),
as.numeric(output_nlsj$convInfo))
}
)
#rm(temp,time)
#rm("NLSformula","NLSrunline","NLSstart","NLStestdata",
# "NLSupper","NLSlower","output_nls","output_nlsj","epstol")
print("End of test file 'Rumford_1.R' ")
#-----------------------------------------#
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