1 files changed, 53 insertions, 43 deletions

diff --git a/R/mkinfit.R b/R/mkinfit.R
index b742742..83896bc 100644
--- a/R/mkinfit.R
+++ b/R/mkinfit.R
@@ -1,7 +1,7 @@
 # $Id: mkinfit.R 120 2011-09-02 14:25:35Z jranke $

 

-# Copyright (C) 2010-2011 Johannes Ranke

-# Contact: mkin-devel@lists.berlios.de

+# Copyright (C) 2010-2012 Johannes Ranke

+# Contact: jranke@uni-bremen.de

 # The summary function is an adapted and extended version of summary.modFit

 # from the FME package, v 1.1 by Soetart and Petzoldt, which was in turn

 # inspired by summary.nls.lm

@@ -22,9 +22,8 @@
 # this program. If not, see <http://www.gnu.org/licenses/>

 

 mkinfit <- function(mkinmod, observed,

-  parms.ini = rep(0.1, length(mkinmod$parms)),

+  parms.ini = "auto",

   state.ini = c(100, rep(0, length(mkinmod$diffs) - 1)), 

-  lower = 0, upper = Inf,

   fixed_parms = NULL,

   fixed_initials = names(mkinmod$diffs)[-1],

   eigen = FALSE,

@@ -34,14 +33,24 @@ mkinfit <- function(mkinmod, observed,
   ...)

 {

   mod_vars <- names(mkinmod$diffs)

-  # Subset dataframe with mapped (modelled) variables

+  # Subset dataframe of observed variables with mapped (modelled) variables

   observed <- subset(observed, name %in% names(mkinmod$map))

   # Get names of observed variables

   obs_vars = unique(as.character(observed$name))

 

-  # Name the parameters if they are not named yet

-  if(is.null(names(parms.ini))) names(parms.ini) <- mkinmod$parms

-

+  # Define initial values for parameters where not specified by the user

+  if (parms.ini[[1]] == "auto") parms.ini = vector()

+  defaultpar.names <- setdiff(mkinmod$parms, names(parms.ini))

+  for (parmname in defaultpar.names) {

+    # Default values for the FOMC model

+    if (parmname == "alpha") parms.ini[parmname] = 1

+    if (parmname == "beta") parms.ini[parmname] = 10

+    # Default values for log of rate constants, depending on the parameterisation

+    if (substr(parmname, 1, 2) == "k_") parms.ini[parmname] = -2.3

+    # Default values for ilr of formation fractions

+    if (substr(parmname, 1, 2) == "f_") parms.ini[parmname] = 0.1

+  }

+   

   # Name the inital parameter values if they are not named yet

   if(is.null(names(state.ini))) names(state.ini) <- mod_vars

 

@@ -58,14 +67,6 @@ mkinfit <- function(mkinmod, observed,
       names(state.ini.optim) <- paste(names(state.ini.optim), "0", sep="_")

   }

 

-  # Set upper limit for formation fractions to one if formation fractions are

-  # directly defined and if no user input for upper limit is given

-  if (all(upper==Inf) & any(grepl("f_", names(parms.ini)))==TRUE){

-    upper=c( rep(Inf,length(parms.optim)))

-    upper[grep("f_", names(parms.optim))]=1

-    upper=c(rep(Inf, length(state.ini.optim)), upper)

-  }

-

   # Decide if the solution of the model can be based on a simple analytical

   # formula, the spectral decomposition of the matrix (fundamental system)

   # or a numeric ode solver from the deSolve package

@@ -80,12 +81,25 @@ mkinfit <- function(mkinmod, observed,
   # if necessary

   if(solution == "deSolve") {

     mkindiff <- function(t, state, parms) {

+      transparms <- vector()

+      transparms <- c(transparms, exp(parms[grep("^k_", names(parms))]))

+      for (box in mod_vars) {

+        path_indices <- grep(paste("^f", box, sep = "_"), names(parms))

+        n_paths <- length(path_indices)

+        if (n_paths > 0) {

+          f <- invilr(parms[grep(paste("^f", box, sep="_"), names(parms))])

+          transparms <- c(transparms, f[1:n_paths])

+        }

+      }

+      otherparms <- parms[setdiff(names(parms), names(transparms))]

+      parms <- c(transparms, otherparms)

+

       time <- t

       diffs <- vector()

       for (box in mod_vars)

       {

         diffname <- paste("d", box, sep="_")      

-        diffs[diffname] <- with(as.list(c(time,state, parms)),

+        diffs[diffname] <- with(as.list(c(time, state, parms)),

           eval(parse(text=mkinmod$diffs[[box]])))

       }

       return(list(c(diffs)))

@@ -251,7 +265,7 @@ mkinfit <- function(mkinmod, observed,
     }

     return(mC)

   }

-  fit <- modFit(cost, c(state.ini.optim, parms.optim), lower = lower, upper = upper, ...)

+  fit <- modFit(cost, c(state.ini.optim, parms.optim), ...)

 

   # We need to return some more data for summary and plotting

   fit$solution <- solution

@@ -323,7 +337,7 @@ mkinfit <- function(mkinmod, observed,
       DT90 = log(10)/k_tot

       for (k_name in k_names)

       {

-        fit$ff[[sub("k_", "", k_name)]] = parms.all[[k_name]] / k_tot

+        fit$ff[[sub("^k_", "", k_name)]] = parms.all[[k_name]] / k_tot

       }

     }

     if (type == "FOMC") {

@@ -395,7 +409,7 @@ mkinfit <- function(mkinmod, observed,
       if (abs(DT90.o - max_DT) < 0.01) DT90 = NA else DT90 = DT90.o

       for (k_out_name in k_out_names)

       {

-        fit$ff[[sub("k_", "", k_out_name)]] = parms.all[[k_out_name]] / k_1output

+        fit$ff[[sub("^k_", "", k_out_name)]] = parms.all[[k_out_name]] / k_1output

       }

       # Return the eigenvalues for comparison with DFOP rate constants

       fit$SFORB[[paste(obs_var, "b1", sep="_")]] = b1

@@ -416,8 +430,11 @@ mkinfit <- function(mkinmod, observed,
   return(fit)

 }

 

-summary.mkinfit <- function(object, data = TRUE, distimes = TRUE, ff = TRUE, cov = FALSE,...) {

+summary.mkinfit <- function(object, data = TRUE, distimes = TRUE, ff = TRUE, ...) {

   param  <- object$par

+  if (object$logk) {

+    names(param) <- sub("^k_", "log k_", names(param))

+  }

   pnames <- names(param)

   p      <- length(param)

   covar  <- try(solve(0.5*object$hessian), silent = TRUE)   # unscaled covariance

@@ -441,32 +458,25 @@ summary.mkinfit <- function(object, data = TRUE, distimes = TRUE, ff = TRUE, cov
     warning(message)

   } else message <- "ok"

 

-  param <- cbind(param, se, tval, pt(tval, rdf, lower.tail = FALSE))

-  dimnames(param) <- list(pnames, c("Estimate", "Std. Error",

-                                    "t value", "Pr(>t)"))

-  if(cov)

-    ans <- list(residuals = object$residuals,

-                residualVariance = resvar,

-                sigma = sqrt(resvar),

-                modVariance = modVariance,

-                df = c(p, rdf), cov.unscaled = covar,

-                cov.scaled = covar * resvar,

-                info = object$info, niter = object$iterations,

-                stopmess = message,

-                par = param)

-  else

-    ans <- list(residuals = object$residuals,

-                residualVariance = resvar,

-                sigma = sqrt(resvar),

-                modVariance = modVariance,

-                df = c(p, rdf),

-                info = object$info, niter = object$iterations,

-                stopmess = message,

-                par = param)

+  param <- cbind(param, se)

+  dimnames(param) <- list(pnames, c("Estimate", "Std. Error"))

+

+  ans <- list(residuals = object$residuals,

+          residualVariance = resvar,

+          sigma = sqrt(resvar),

+          modVariance = modVariance,

+          df = c(p, rdf), cov.unscaled = covar,

+          cov.scaled = covar * resvar,

+          info = object$info, niter = object$iterations,

+          stopmess = message,

+          par = param)

 

   ans$diffs <- object$diffs

   if(data) ans$data <- object$data

   ans$start <- object$start

+  if (object$logk) {

+    names(ans$start) <- sub("^k_", "log k_", names(ans$start))

+  }

   ans$fixed <- object$fixed

   ans$errmin <- object$errmin 

   if(distimes) ans$distimes <- object$distimes