Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Thanks to R's evaluation of function arguments, it is possible to specify a consistent set of input parameters, and have the others automagically calculated.

Consider the following function, linking the concentration, mass, volume and molar weight for a dilution in chemistry,

concentration <- function(c = m / (M*V), m = c*M*V, V = m / (M*c), M = 417.84){

  cat(c("c=", c*1e6, "micro.mol/L\n",
          "m=", m*1e3, "mg\n",
          "M=", M, "g/mol\n",
          "V=", V*1e3, "mL\n"))
  ## mol/L, g, g/mol, L
 invisible(list(c=c, m=m, M=M, V=V))


Is there a way to specify only one of the equations and have R figure out the others by inversion? I realise this is limited to simple linear relationships, as the inversion cannot generally be expressed analytically.

concentration <- function(c = m / (M*V), m, V, M = 417.84){

 ## { magic.incantation }
 ## mol/L, g, g/mol, L
 invisible(list(c=c, m=m, M=M, V=V))

share|improve this question
add comment

1 Answer 1

You might want to look at the BB package, and in particular the function BBsolve(). BBsolve does a Newton-Raphson backsolve of the equation(s) you feed it. As it happens :-) , I wrote and published a function "ktsolve" which allows you to enter a set of equations and some subset of the variables, and it'll return the values of the other variables. (It's named in honor of the commercial TK!Solver package). If you want to try it out, you can get it at http://witthoft.com/ktsolve.R (or http://witthoft.com/rtools.html and click on the link there).

share|improve this answer
sounds good – would you have a simple example? –  baptiste Aug 26 '11 at 21:31
Baptiste: start w/ the BBsolve help page, then try the sample function in the ktsolve.R function header. # yfunc -- is a function of the form: # yfunc<-function(x) { # y<-vector() # y[1]<-f1(x) # y[2]<-f2(x) # y[length(x)]<-fn(x) # y # } # where y[j] are dummies which will be driven to zero, # and x[j] is a dummy vector which will be filled in with 'guess' # So, eqns in the form A=f(x) must be entered as y[j] <- f(x)-A # Example: d = a + sqrt(b) and a = sin(a/b) + g*exp(f*a) become # y[1]<- a - d +sqrt(b) and y[2]<- sin(a/b) +g*exp(f*a) -a , –  Carl Witthoft Aug 27 '11 at 16:14
and... # and e.g. # known <- list(a=3,d=5,g=.1) are the fixed parameters and # guess <- list(b=1,f=1) are the initializers for BBsolve() –  Carl Witthoft Aug 27 '11 at 16:15
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.