4

I'm working with R code that has an interface to C via .Call(). The C function outputs to STDOUT via printf(). As a concrete, more simple example, I'll follow http://mazamascience.com/WorkingWithData/?p=1099

Here is our C code with outputs hello world via printf(), helloA1.c:

#include <R.h>
#include <Rdefines.h>
#include <stdio.h>
SEXP helloA1() {
  printf("Hello World!\n");
  return(R_NilValue);
}

After installation via R CMD SHLIB helloA1.c, we invoke the function as follows within R:

> dyn.load("helloA1.so")
> hellocall = .Call("helloA1")
  Hello World!

I cannot access the text "Hello World!" within R as a data structure though. e.g.

> vec1 = as.vector( .Call("helloA1"))
Hello World!
> vec1
NULL
> 

or

> library(data.table)
> dt = as.data.table(.Call("helloA1"))
Hello World!
> dt
Null data.table (0 rows and 0 cols)
> 

Is there any way to "load" the output of printf() into R?

I can translate the functions into Rcpp, but will run into the same problem I think with Rprintf().

EDIT: Apologies, I had previously thought RPrintf() was a function within Rcpp. I have edited the title of this question appropriately.

3
  • 1
    Does capture.output work? Jan 18, 2018 at 1:16
  • 2
    @Gregor surprisingly no. Neither does a traditional sink(). I think this is in large part due to @ShanZhengYang using printf() instead of Rprintf().
    – coatless
    Jan 18, 2018 at 1:38
  • @coatless So, Rprintf() would work then? Interesting... Jan 18, 2018 at 2:01

1 Answer 1

6

So, the issue here is printf negates R's built collection mechanisms for output. In particular, there is no C-level 'stdout' file stream and, thus, no output to collect in either Rgui or RStudio. For details, please see Section 6.5 Printing of Writing R Extensions

Two possible solutions:

  1. Define a macro that sets printf to direct into Rprintf and include the #define STRICT_R_HEADERS to avoid errors.
  2. Switch instances of printf to Rprintf in the offending code.

From here, the capture can be passed off to either capture.output(), which directly assigns output to a variable, or sink(), which redirects output to a file whose contents must then be read back in using readLines(). The latter makes it possible to have a clear enclose over multiple lines of code to capture output while the prior is focused on securing output present from an inputted expression.

Option 1

For the first iteration, just define a header that includes the custom define and then include the third party library, e.g.

my_code.h

#ifndef MY_CODE_H
#define MY_CODE_H
#include <R.h>
// this load R_ext/Print.h.

// #include <YOUR_LIBRARY.h>

// Define strict headers
#define STRICT_R_HEADERS
// Map printf to Rprintf
#define printf Rprintf
#endif

toad.c

#include <R.h>
#include <Rdefines.h>
#include "my_code.h"

SEXP helloA1() {
  printf("Hello World!\n");
  return(R_NilValue);
}

toad_example.R

system("R CMD SHLIB ~/Desktop/toad.c")
dyn.load("~/Desktop/toad.so")

helloA1 <- function() {
  result <- .Call("helloA1")
}

# Gregor's suggestion
captured_data = capture.output(helloA1())

# Using sink around multiple function calls to redirect output
# to a single file
sink("sink-examp.txt")
helloA1()
sink()

input_data = readLines("sink-examp.txt")

all.equal(input_data, captured_data)
# [1] TRUE

I've implemented this approach in an R package that can be found here:

https://github.com/coatless/printf2Rprintf

Option 2

This option manually redefines the printf functions.

toad.c

#include <R.h>
#include <Rdefines.h>
SEXP helloA1() {
  Rprintf("Hello World!\n"); // manually changed
  return(R_NilValue);
}

toad_example.R

system("R CMD SHLIB ~/Desktop/toad.c")
dyn.load("~/Desktop/toad.so")

helloA1 <- function() {
  result <- .Call("helloA1")
}

# Gregor's suggestion
captured_data = capture.output(helloA1())

# Using sink around multiple function calls to redirect output
# to a single file
sink("sink-examp.txt")
helloA1()
sink()

input_data = readLines("sink-examp.txt")

all.equal(input_data, captured_data)
# [1] TRUE
5
  • Thanks for the help! This is very helpful, and I appreciate it. Question: # Using sink around ata---I don't follow this. Where did the *txt come from? Jan 18, 2018 at 2:14
  • Thanks for the help. As a start, I'm trying to integrate the the toad.c function into the current C code I'm working with in /src. The package build works, but install throws an error: Undefined symbols for architecture x86_64: "_R_NilValue", referenced from: _helloA1 in bamdb.o "_Rprintf", referenced from: _helloA1 in bamdb.o ld: symbol(s) not found for architecture x86_64, 'clang: error: linker command failed with exit code 1' I believe I follow the rules in the Makevars file, and the R home /include headers are found. clang is ok I think. what's my n00b error? Jan 18, 2018 at 8:47
  • I bet I'm manually linking to the R headers incorrectly, using Mac OS frameworks. R.home('include') gives me /Library/Frameworks/R.framework/Resources/include, so I tried using -I with this....now, how to fix this... Jan 18, 2018 at 9:26
  • Apparently linking to all R.framework paths like stackoverflow.com/questions/19909868/… works, though I cannot load the function Error in .Call("helloA1") : C symbol name "helloA1" not in load table. Is there a way to check all available objects to load? Jan 18, 2018 at 11:11
  • I've put it into a package here: github.com/coatless/printf2Rprintf
    – coatless
    Jan 18, 2018 at 15:05

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