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Im trying to parse expressions from XML and then use them in deSolve's ode function.

The XML bit that defines the rates looks like this:

<model name="Lorenz">
    <state_variables>
        <variable id="X" name="x" value="1"/>
        <variable id="Y" name="y" value="1"/>
        <variable id="Z" name="z" value="1"/>
    </state_variables>
    <parameters>
        <variable id="a" name="a" value="-2.66"/>
        <variable id="b" name="b" value="-10"/>
        <variable id="c" name="c" value="28"/>
    </parameters>
    <rates>
        <variable id="dX" name="xchange" value="a*X+Y*Z"/>
        <variable id="dY" name="ychange" value="b*(Y-Z)"/>
        <variable id="dZ" name="zchange" value="-X*Y+c*Y-Z"/>
    </rates>
</model>

And my R object looks like this after parsing the variable leafs:

rates
expression(dX = a * X + Y * Z, dY = b * (Y - Z), dZ = -X * Y +  c * Y - Z)

My goal is to get these expressions in a function like this, but not hardcoded:

differentialRates= function(t, states, parameters){
  with(as.list(c(states, parameters)),{
    # This works but is still hardcoded:
    dX <- eval(rates[1])
    dY <- eval(rates[2])
    dZ <- eval(rates[3])
    # return the rate of change
    list(c(dX, dY, dZ))
  })
}
out <- ode(y = states, times = times, func = differentialRates, parms = parameters)

So if the rates vector changes because some other XML is loaded, the function differentialRates does not have to be changed.

Any insights would be very much appreciated.

EDIT As requested by Justin here is my code that parses the XML, I also expanded the XML above to be more inclusive.

extractVars = function(doc, model, node, key = "id", value = "value", numeric = FALSE, expression = FALSE){
  path = paste("/models/model[@name='",model, "']/", node, "/variable", sep="") #   Construct xpath
  xvars = xpathSApply(doc, path)  # Retrieve variable leafs
  xvars = sapply(xvars, xmlAttrs) # Retrieve attributes
  vars = as.vector(t(xvars[value,])) # Turn matrix (svars) into vector (vars)
  if(numeric){
    vars = as.numeric(vars)
  }
  if(expression){
    vars = mapply(parse, vars, text=vars)    
  }
  names(vars) = xvars[key,] # Apply names from matrix to vector
  return(vars)
}

Retrieve variables like this:

parameters = extractVars(doc, model="Lorenz", node="parameters", numeric=TRUE)
states = extractVars(doc, model="Lorenz", node="state_variables", numeric=TRUE)
rates = extractVars(doc, model="Lorenz", node="rates", expression=TRUE)

My guess is a function like this:

differentialRates <- function(t, y, parameters){
  return(lapply(rates, eval))
}

But this returns the error:

Error in split.default(rep_len(as.vector(e2), prod(dim(e1))), rep.int(seq_len(ncol(e1)),  : unimplemented type 'expression' in 'split'
share|improve this question
    
you could do something like return (lapply(rates, eval))... but this sounds like you're opening yourself up to a lot of bad news down the line. I'd be curious to know how you're getting the XML parsed and what the end goal here is... there must be a better way than blindly eval-ing parsed XML expressions! –  Justin Nov 26 '13 at 16:31
    
@Justin I edited my question to include the information you requested, also I tried your suggestion but I get the same error I always get in my attempts: The number of derivatives returned by func() (1) must equal the length of the initial conditions vector (3). Somehow it seems to think the list of 3 is one expression or something. The point about this code is to load in differential models from XML, much more exiting stuff is planned for later on. –  Blight Nov 27 '13 at 8:47
    
@Justin Got a different result with the function: derivs4 <-function(t, y, parameters){ return(lapply(rates, eval)) }. The error is now: Error in split.default(rep_len(as.vector(e2), prod(dim(e1))), rep.int(seq_len(ncol(e1)), : unimplemented type 'expression' in 'split' –  Blight Nov 28 '13 at 10:27

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