library(testthat) context("Test the conversion of the simulation time when mrgsolve is used") test_that("Time-dependent ODE's are correctly translated", { posMain <- Position(MainRecord()) posOde <- Position(OdeRecord()) weibullEquation <- Equation("WF", "DOSE * exp(-pow(t/TAU, SH)) * (SH/TAU) * pow(t/TAU, SH-1)") model <- CampsisModel() %>% add(Ode("A_ABS", "-WF*A_ABS"), pos=posOde) %>% add(Ode("A_CENTRAL", "WF*A_ABS - CL/VC*A_CENTRAL"), pos=posOde) %>% add(weibullEquation, pos=Position(OdeRecord(), after=FALSE)) %>% # WF will start the ODE block add(Equation("CP", "A_CENTRAL/VC"), pos=posOde) %>% add(Equation("TAU", "10"), pos=posMain) %>% add(Equation("SH", "5"), pos=posMain) %>% add(Equation("CL", "5"), pos=posMain) %>% add(Equation("VC", "100"), pos=posMain) ode <- model %>% find(OdeRecord()) main <- model %>% find(MainRecord()) expect_equal(ode@statements %>% getNames(), c("EQUATION (WF)", "ODE (A_ABS)", "ODE (A_CENTRAL)", "EQUATION (CP)")) expect_equal(main@statements %>% getNames(), c("EQUATION (TAU)", "EQUATION (SH)", "EQUATION (CL)", "EQUATION (VC)")) mrgmod <- model %>% export(dest="mrgsolve") expected <- c("[ODE]", "double WF=DOSE * exp(-pow(SOLVERTIME/TAU, SH)) * (SH/TAU) * pow(SOLVERTIME/TAU, SH-1);", "dxdt_A_ABS=-WF*A_ABS;", "dxdt_A_CENTRAL=WF*A_ABS - CL/VC*A_CENTRAL;", "double CP=A_CENTRAL/VC;") })