I seek to compare two generic R values in C++ using Rcpp. How can I compare two values without casting them to specific types in C++?

The code that explains my issue is as follows,

src <- "return wrap(x1 == x2);"

fun <- cxxfunction(signature(x1 = "SEXP", x2 = "SEXP"), src, plugin = "Rcpp")

fun("a", "a")

to_cmp <- "a"

fun(to_cmp, to_cmp)

It now gives FALSE and TRUE where I want it to yield TRUE and TRUE.

Since my goal is to implement a data structure in C++ I would prefer to potential user defined == methods.

Possible approach

One approach that I tried is,


src <- '
Language call("\`==\`", x1, x2);

return call.eval();

fun <- cxxfunction(signature(x1 = "SEXP", x2 = "SEXP"), src, plugin = "Rcpp")

fun("a", "a")

to_cmp <- "a"

fun(to_cmp, to_cmp)

However, when I run this I get Error: could not find function "`==`"

  • 1
    without giving it a type, it doesn't know which operator== it's supposed to use – deW1 Oct 3 '16 at 22:32
  • I know that that is an issue but I was just wondering whether there is a way I can call the R == operator or whether any syntactic sugar exists for this. – Stereo Oct 3 '16 at 22:33
  • 1
    function overloading could be an idea – deW1 Oct 3 '16 at 22:35
  • This question is related to a general data structure that should be able to hold any kind of information so I guess that overloading would require all possible combinations. Or do you have another view on this? – Stereo Oct 3 '16 at 22:40
  • R provides the R_compute_identical(SEXP, SEXP, int) API as well: github.com/wch/r-source/blob/… – Kevin Ushey Oct 6 '16 at 5:52

You are on the right track with using the generic SEXP input object tag. To get this to work one needs to use C++ templates in addition to TYPEOF(). The prior enables the correct vector creation in the comparison function to be hooked in with Rcpp sugar while the latter enables the correct check and dispatch to occur.

#include <Rcpp.h>
using namespace Rcpp;

template <int RTYPE>
Rcpp::LogicalVector compare_me(Rcpp::Vector<RTYPE> x, Rcpp::Vector<RTYPE> y) {
    return x == y;

// [[Rcpp::export]]
Rcpp::LogicalVector compare_objects(SEXP x, SEXP y) {

    if (TYPEOF(x) == TYPEOF(y)) {
        switch (TYPEOF(x)) {
            case INTSXP:
                return compare_me<INTSXP>(x, y);
            case REALSXP:
                return compare_me<REALSXP>(x, y);
            case STRSXP:
                return compare_me<STRSXP>(x, y);
                Rcpp::stop("Type not supported");
    } else {
        Rcpp::stop("Objects are of different type");

    // Never used, but necessary to avoid the compiler complaining
    // about a missing return statement
    return Rcpp::LogicalVector(); 


to_cmp <- "a"
compare_objects(to_cmp, to_cmp)


[1] TRUE

Also, the above is for use with Rcpp::sourceCpp(). I would encourage you to switch from using inline to using Rcpp::cppFunction() for function definitions as it allows you to focus on the computation and not the setup.

  • Thanks, I was working with that and boost::variant to hide most of the complexity. The problem is that this still does not support user defined ==. Thanks for pointing out Rcpp::sourceCpp(), I just wanted to simplify the problem for SO. – Stereo Oct 3 '16 at 23:41

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