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'
```

`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`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`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