library(gasfluxes) context("gasfluxes checks") test_that("gasfluxes returns expected values", { skip_on_cran() #less NA values on winbuilder res <- gasfluxes(fluxMeas[1:20,], .id = "serie", .V = "V", .A = "A", .times = "time", .C = "C", methods=c("linear", "robust linear","HMR", "NDFE"),verbose=FALSE, plot = FALSE) expect_equal(data.table:::setDF(res), structure(list(serie = c("ID1", "ID2", "ID3", "ID4", "ID5"), linear.f0 = c(0.0555669866740785, -0.0611626095687461, -0.0428897148924301, -0.0111793261413552, 0.041840210297243), linear.f0.se = c(0.028697055158409, 0.0263636317002555, 0.0425127107690505, 0.0599487242659592, 0.00840546056899412), linear.f0.p = c(0.19245050979196, 0.146138869452879, 0.419251528032237, 0.86926934170296, 0.0380688306059213), linear.C0 = c(0.308970790118557, 0.475855538008889, 0.465418448020012, 0.385341651037846, 0.333253184107449), linear.AIC = c(-10.9887845537839, -11.6825495623863, -8.01509608282695, -5.16760526792864, -21.0235708278954), linear.AICc = c(Inf, Inf, Inf, Inf, Inf ), linear.RSE = c(0.040927093104423, 0.0375274115555534, 0.0593530390736887, 0.0847274536777346, 0.0116749320402043 ), linear.r = c(0.80754949020804, -0.853861130547121, -0.580748471967763, -0.13073065829704, 0.961931169394079), linear.diagnostics = c("", "", "", "", ""), robust.linear.f0 = c(0.0555669866740785, -0.0611626095687461, -0.0303109387388623, 0.00681856647255265, 0.041840210297243), robust.linear.f0.se = c(0.028697055158409, 0.0263636317002555, 0.0153424660030732, 0.0204971767735417, 0.00840546056899412), robust.linear.f0.p = c(0.19245050979196, 0.146138869452879, 0.163090704934174, 0.750421672669818, 0.0380688306059213), robust.linear.C0 = c(0.308970790118557, 0.475855538008889, 0.473272206610976, 0.339838564756016, 0.333253184107449), robust.linear.weights = c("1|1|1|1", "1|1|1|1", "1|1|0.16|1", "1|0.15|1|1", "1|1|1|1"), robust.linear.diagnostics = c("", "", "", "", ""), HMR.f0 = c(NA, NA, -0.123519676950121, NA, NA), HMR.f0.se = c(NA, NA, 0.398816657432394, NA, NA), HMR.f0.p = c(NA, NA, 0.808793773178641, NA, NA), HMR.kappa = c(NA, NA, 2.39558096804163, NA, NA), HMR.phi = c(NA, NA, 0.383150980920675, NA, NA), HMR.AIC = c(NA, NA, -6.62832654602552, NA, NA), HMR.AICc = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), HMR.RSE = c(NA, NA, 0.0777441345299411, NA, NA), HMR.diagnostics = c("singular gradient", "Missing value or an infinity produced when evaluating the model", "", "Missing value or an infinity produced when evaluating the model", "element (3, 3) is zero, so the inverse cannot be computed" ), NDFE.f0 = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_ ), NDFE.f0.se = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.f0.p = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.tau = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.C0 = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.AIC = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.AICc = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.RSE = c(NA_real_, NA_real_, NA_real_, NA_real_, NA_real_), NDFE.diagnostics = c("Missing value or an infinity produced when evaluating the model", "singular gradient", "Missing value or an infinity produced when evaluating the model", "step factor 5.82077e-11 reduced below 'minFactor' of 1e-10", "Missing value or an infinity produced when evaluating the model" )), row.names = c(NA, -5L), class = "data.frame"), tolerance = 1e-5 ) }) test_that("selection returns expected values with kappa.max", { skip_on_cran() #less NA values on winbuilder res <- gasfluxes(fluxMeas[485:499,], .id = "serie", .V = "V", .A = "A", .times = "time", .C = "C", methods=c("linear", "robust linear","HMR"),verbose=FALSE, plot = FALSE) expect_equal(as.data.frame(selectfluxes(res, "kappa.max", f.detect = 0.03, t.meas = 1))[c("flux", "flux.se", "flux.p", "method", "kappa.max")], structure(list(flux = c(0.0172439680316337, 0.028023512795377, 0.0897373647534936, 0.0498932647404164), flux.se = c(0.00780091069252072, 0.00651602824427401, 0.0504960367895039, 0.00822058452534422), flux.p = c(0.270458639172872, 0.0500419634199361, 0.326298401335317, 0.0260892939505948), method = c("linear", "robust linear", "HMR", "robust linear"), kappa.max = c(0.574798934387791, 0.934117093179233, 2.69886766312187, 1.66310882468055)), row.names = c(NA, -4L), class = "data.frame"), tolerance = 1e-5 ) } ) test_that("selectfluxes handles 'linear' HMR fit correctly", { skip_on_cran() library(data.table) DT <- fread("Datum;Uhrzeit;Verschlusszeit;Standort;Plot;T Haube innen Anfang [°C];h_eff;N2O 05.03.2019;15:48;0;2;D;6.1;0.344833333;323.76 05.03.2019;16:08;0.3333;2;D;6.3;0.344833333;349.44 05.03.2019;16:28;0.6667;2;D;6;0.344833333;344.74 05.03.2019;16:48;1;2;D;5.8;0.344833333;411.28") DT[, n2o_mass := N2O * 28 * 273.15 / 22.4136 / (273.15 + `T Haube innen Anfang [°C]`)] DT[, A := 1] N2O <- gasfluxes(DT[!is.na(n2o_mass)][, .(Datum, Standort, Plot, h_eff, A, Verschlusszeit, n2o_mass)], .id = c("Datum", "Standort", "Plot"), .V = "h_eff", .A = "A", .times = "Verschlusszeit", .C = "n2o_mass", plot = FALSE, verbose = FALSE) f.detect <- c(`97.5%` = 12.1253368247024) t.meas <- 1 expect_equal(as.data.frame(selectfluxes(N2O, "kappa.max", f.detect = f.detect, t.meas = t.meas))[c("flux", "flux.se", "flux.p", "method", "kappa.max")], structure(list(flux = 35.8503269424242, flux.se = 7.04713023648099, flux.p = 0.0314758844529013, method = "robust linear", kappa.max = 2.70589512450848), row.names = c(NA, -1L), class = "data.frame") ) } )