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I'm trying to call a C routine from the cubature package in a c++ function to perform multidimensional integration.

The basic R example I'm trying to reproduce is

library(cubature)
integrand <- function(x) sin(x)
adaptIntegrate(integrand, 0, pi)

I could just call this R function from Rcpp following this recipe from the gallery, but there would be some performance penalty in switching back and forth from c/c++ to R. It seems more sensible to directly call the C function from C++.

The C routine adapt_integrate is exported from cubature with

 // R_RegisterCCallable("cubature", "adapt_integrate", (DL_FUNC) adapt_integrate);

I don't understand how to call it from c++, however. Here's my lame attempt,

sourceCpp(code = '
#include <Rcpp.h>
using namespace Rcpp;

// [[Rcpp::export]]
double integrand(double x){
 return(sin(x));
}

// [[Rcpp::depends(cubature)]]
// [[Rcpp::export]]
Rcpp::List integratecpp(double llim, double ulim)
{
  Rcpp::Function p_cubature = R_GetCCallable("cubature", "adapt_integrate");

  Rcpp::List result = p_cubature(integrand, llim, ulim);
  return(result);
}
'
)

integratecpp(0, pi)

This fails to compile; clearly I'm doing something very silly and missing some important steps to convert the output of R_GetCCallable into an Rcpp::Function (or call it directly?). I've read several related posts dealing with function pointers, but haven't seen an example using an external C function.

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2 Answers 2

up vote 3 down vote accepted

Unfortunately cubature does not ship the headers in inst/include, so you have to borrow that from them and do something like this in your code:

typedef void (*integrand) (unsigned ndim, const double *x, void *,
           unsigned fdim, double *fval);

int adapt_integrate(
    unsigned fdim, integrand f, void *fdata,
    unsigned dim, const double *xmin, const double *xmax, 
    unsigned maxEval, double reqAbsError, double reqRelError, 
    double *val, double *err)
{
    typedef int (*Fun)(unsigned,integrand,void*,unsigned,
        const double*,const double*, unsigned, double, double, double*, double*) ;
    Fun fun = (Fun) R_GetCCallable( "cubature", "adapt_integrate" ) ;           
    return fun(fdim,f,fdata,dim,xmin,xmax,maxEval,reqAbsError, reqRelError,val,err); 
}

It might be a good idea to negociate with the maintainer of cubature that he ships declarations in inst/include so that you'd only have to use LinkingTo.

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Many thanks for assembling these missing pieces. I will have to rethink the problem, unfortunately, because from what I see adapt_integrate will not easily accept an integrand that I defined using armadillo's data structures. For completeness, would you be able to add a minimal example of use? –  baptiste Dec 9 '13 at 17:16
    
What it gives you is access to the function pointer that cubature registered. I don't know what you are then supposed to do with the C function... –  Romain Francois Dec 9 '13 at 17:20
    
indeed, considering an example of use I see trouble ahead: adapt_integrate_v expects pointers to objects such as *fdata, the integrand expects pointers such as *fval, while the arguments I really want to pass are e.g. arma::colvec objects. I don't think I'll be able to make a bridge between the two. I may have to stick with R-level interface, or implement my own 2D quadrature in c++. –  baptiste Dec 9 '13 at 17:37
    
Sure. I was only answering how to call this function. If you want to call it with some other data type, you have to either do some data conversion work or negociate another interface with the maintainer of cubature. –  Romain Francois Dec 9 '13 at 18:14

Didn't see this question earlier, and it looks like @Romain addressed it.

For completeness, a working example of how to do this when all parties play along is provided by the xts and RcppXts packages. In xts, we do this (for about ten functions) in the (source) file inst/include/xtsAPI.h:

SEXP attribute_hidden xtsLag(SEXP x, SEXP k, SEXP pad) {     
    static SEXP(*fun)(SEXP,SEXP,SEXP) = NULL;         
    if (fun == NULL)                                  
        fun = (SEXP(*)(SEXP,SEXP,SEXP)) R_GetCCallable("xts","lagXts");   
    return fun(x, k, pad);                               
}  

along with the usual business of R_registerRoutines and R_RegisterCCallable.

In RcppXts this is picked up (in an Rcpp Module) as

function("xtsLag", 
         &xtsLag,    
         List::create(Named("x"), Named("k"), Named("pad")),   
         "Extract the coredata from xts object");

which works pretty well. Someone reprimanded me to write the xts side more compactly (as the if NULL is spurious) which I will get to ... eventually.

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thanks for the pointers, unfortunately this is a case where working out the proper glue between the two pieces of code would take me way more time and suffering than actually doing the calculations with the slower R implementation. I would otherwise consider linking directly to the original cubature code rather than through the R package, which is using an older version. –  baptiste Dec 10 '13 at 10:56

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