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So here is something a bit crazy.

If you have some C code which is called by an R function (as a shared object), try adding this to the code

void warn() {

 int i; // just so the function has some work, but you could make it empty to, or do other stuff

}

If you then call warn() anywhere in the C code being called by the R function you get a segfault;

  *** caught segfault ***
 address 0xa, cause 'memory not mapped'
Traceback:
  1: .C("C_function_called_by_R", as.double(L), as.double(G), as.double(T), as.integer(nrow),     as.integer(ncolL), as.integer(ncolG), as.integer(ncolT),     as.integer(trios), as.integer(seed), as.double(pval), as.double(pval1),     as.double(pval2), as.double(pval3), as.double(pval4), as.integer(ntest),     as.integer(maxit), as.integer(threads), as.integer(quietly))
  2: package_name::R_function(L, G, T, trios)
  3: func()
  4: system.time(func())
  5: doTryCatch(return(expr), name, parentenv, handler)
  6: tryCatchOne(expr, names, parentenv, handlers[[1L]])
  7: tryCatchList(expr, classes, parentenv, handlers)
  8: tryCatch(expr, error = function(e) {    call <- conditionCall(e)    if (!is.null(call)) {        if (identical(call[[1L]], quote(doTryCatch)))             call <- sys.call(-4L)        dcall <- deparse(call)[1L]        prefix <- paste("Error in", dcall, ": ")        LONG <- 75L        msg <- conditionMessage(e)        sm <- strsplit(msg, "\n")[[1L]]        w <- 14L + nchar(dcall, type = "w") + nchar(sm[1L], type = "w")        if (is.na(w))             w <- 14L + nchar(dcall, type = "b") + nchar(sm[1L],                 type = "b")        if (w > LONG)             prefix <- paste(prefix, "\n  ", sep = "")    }    else prefix <- "Error : "    msg <- paste(prefix, conditionMessage(e), "\n", sep = "")    .Internal(seterrmessage(msg[1L]))    if (!silent && identical(getOption("show.error.messages"),         TRUE)) {        cat(msg, file = stderr())        .Internal(printDeferredWarnings())    }    invisible(structure(msg, class = "try-error", condition = e))})
  9: try(system.time(func()))
 10: .executeTestCase(funcName, envir = sandbox, setUpFunc = .setUp,     tearDownFunc = .tearDown)
 11: .sourceTestFile(testFile, testSuite$testFuncRegexp)
 12: runTestSuite(testSuite)
 aborting ...
 Segmentation fault (core dumped)
 (END)

Needless to say the code runs fine if you call the same function from a C or C++ wrapper instead of from an R function. If you rename warn() it also works fine.

Any ideas? Is this a protected name/symbol? Is there a list of such names? I'm using R version 2.14.1 on Ubuntu 12.01 (i686-pc-linux-gnu (32-bit)). C code is compiled with GNU GCC 4.6.3.

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1 Answer 1

up vote 5 down vote accepted

This seems like quite an interesting question. Here's my minimal example, in a file test.c I have

void warn() {}
void my_fun() { warn(); }

I compile it and then run

$ R CMD SHLIB test.c
$ R -e "dyn.load('test.so'); .C('my_fun')"

With my linux gcc version 4.6.3., the R output is

> dyn.load('test.so'); .C('my_fun')
R: Success
list()

with that "R: Success" coming from the warn function defined in libc (see man warn, defined in err.h). What happens is that R loads several dynamic libraries as a matter of course, and then loads test.so as instructed. When my_fun gets called, the dynamic linker resolves warn, but the rules of resolution are to search globally for the warn symbol, and not just in test.so. I really don't know what the global search rules are, perhaps in the order the .so's were opened, but whatever the case the resolution is not where I was expecting.

What is to be done? Specifying

static void warn() {}

forces resolution at compile time, when the .o is created, and hence avoiding the problem. This wouldn't work if, for instance, warn was defined in one file (utilities.c) and my_fun in another. On Linux dlopen (the function used to load a shared object) can be provided with a flag RTLD_DEEPBIND that does symbol resolution locally before globally, but (a) R does not use dlopen that way and (b) there are several (see p. 9) reservations with this kind of approach. So as far as I can tell the best practice is to use static where possible, and to carefully name functions to avoid name conflicts. This latter is not quite as bad as it seems, since R loads package shared objects such that the package symbols themselves are NOT added to the global name space (see ?dyn.load and the local argument, and also note the OS-specific caveats).

I'd be interested in hearing of a more robust 'best practice'.

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