README.md
In wrathematics/Romp: R OpenMP Examples
Romp
- Version: 0.1
- URL: https://github.com/wrathematics/Romp
- License:
- Author: Drew Schmidt
Basic examples using OpenMP with R, for C, C++, F77, and Fortran 2003.
Examples
There are 3 examples, using each of C, C++ (Rcpp), F77, and F2003.
Hello World
A basic OpenMP hello world. Note that the order of thread printing
is not guaranteed.
Sum
Sums up a numeric vector.
Sweep
Sweeps a numeric vector from a numeric matrix of the same length
as the number of rows of that matrix. Equivalent to calling
sweep(x, STATS=vec, MARGIN=1, FUN="-") in R.
Benchmarks
I wouldn't take the numbers here too seriously, especially for the
sum example, where they appear to be statistically identical.
The languages separate on the sweep example, though possibly for
implementation reasons.
The benchmarks are located at Romp/inst/benchmarks/ of the source
tree. All tests were performed using:
- R 3.2.0
- gcc 4.9.1
- 4 cores of a Core i5-2500K CPU @ 3.30GHz
Sum
test replications elapsed relative
5 f90_sum(x) 100 1.178 1.000
4 f77_sum(x) 100 1.179 1.001
2 c_sum(x) 100 1.186 1.007
3 rcpp_sum(x) 100 1.196 1.015
1 sum(x) 100 2.605 2.211
Sweep
test replications elapsed relative
4 f77_sweep(x, vec) 100 5.242 1.000
5 f90_sweep(x, vec) 100 5.315 1.014
2 c_sweep(x, vec) 100 5.354 1.021
3 rcpp_sweep(x, vec) 100 14.966 2.855
1 r_sweep(x, vec) 100 52.330 9.983
Primes Below an Integer
test replications elapsed relative
1 c_primesbelow(n) 100 9.054 1.000
3 f90_primesbelow(n) 100 9.629 1.064
2 f77_primesbelow(n) 100 9.656 1.066
4 rcpp_primesbelow(n) 100 10.391 1.148
Integration with R
If you are unfamiliar with integrating C, C++, or Fortran into R,
then the following will hopefully be of use to you.
C
We use the .Call() interface. There is a (nearly) deprecated
.C() interface, which you should not use, as it has serious
performance loss compared to the .Call() interface.
If you are interested in some simplifications of R's C interface
but don't want to jump to C++, you might consider taking a look
at the C project RNACI,
which is also available as a header-only library.
C++
Here we use Rcpp. Using RcppAttributes (noted
by the // [[Rcpp::export]] calls), we can write something that
looks very much like C++, and use Rcpp's (R function)
compileAttributes() to generate C-level and R-level R wrappers.
The script Romp/resrc does this.
Fortran
For both F77 and F90+, integration with R is non-trivial. As with C,
there is a (nearly) deprecated interface .Fortran() which you should
not use due to its large performance overhead. Instead, you should:
- Write your Fortran code.
- Write a C wrapper of the Fortran code using R's
.Call() interface (or Rcpp if you prefer).
- Call the C code from R using
.Call(().
As noted, you can use Rcpp in lieu of R's basic C interface for
wrapping Fortran code, though I seriously recommend against it.
Bringing in C++ can complicate linking, among other things, and
for wrapping C/Fortran code, in my opinion, Rcpp brings little to
the table (C++ is another story!). If you are interested in some
simplifications of R's C interface but don't want to jump to use
Rcpp, you might consider taking a look at
RNACI.
It is difficult to reliably use F90+ functions and subroutines which
live in modules without the use of the F2003 iso_c_binding module
(which has been supported by every compiler for ages). This package
gives some nice examples of how to use module code.
A final note about F90+ in particular, is that some of the advice
in Writing R Extensions is not always entirely accurate.
wrathematics/Romp documentation built on May 4, 2019, 9:48 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Romp
- Version: 0.1
- URL: https://github.com/wrathematics/Romp
- License:
- Author: Drew Schmidt
Basic examples using OpenMP with R, for C, C++, F77, and Fortran 2003.
Examples
There are 3 examples, using each of C, C++ (Rcpp), F77, and F2003.
Hello World
A basic OpenMP hello world. Note that the order of thread printing is not guaranteed.
Sum
Sums up a numeric vector.
Sweep
Sweeps a numeric vector from a numeric matrix of the same length
as the number of rows of that matrix. Equivalent to calling
sweep(x, STATS=vec, MARGIN=1, FUN="-") in R.
Benchmarks
I wouldn't take the numbers here too seriously, especially for the sum example, where they appear to be statistically identical. The languages separate on the sweep example, though possibly for implementation reasons.
The benchmarks are located at Romp/inst/benchmarks/ of the source
tree. All tests were performed using:
- R 3.2.0
- gcc 4.9.1
- 4 cores of a Core i5-2500K CPU @ 3.30GHz
Sum
test replications elapsed relative
5 f90_sum(x) 100 1.178 1.000
4 f77_sum(x) 100 1.179 1.001
2 c_sum(x) 100 1.186 1.007
3 rcpp_sum(x) 100 1.196 1.015
1 sum(x) 100 2.605 2.211
Sweep
test replications elapsed relative
4 f77_sweep(x, vec) 100 5.242 1.000
5 f90_sweep(x, vec) 100 5.315 1.014
2 c_sweep(x, vec) 100 5.354 1.021
3 rcpp_sweep(x, vec) 100 14.966 2.855
1 r_sweep(x, vec) 100 52.330 9.983
Primes Below an Integer
test replications elapsed relative
1 c_primesbelow(n) 100 9.054 1.000
3 f90_primesbelow(n) 100 9.629 1.064
2 f77_primesbelow(n) 100 9.656 1.066
4 rcpp_primesbelow(n) 100 10.391 1.148
Integration with R
If you are unfamiliar with integrating C, C++, or Fortran into R, then the following will hopefully be of use to you.
C
We use the .Call() interface. There is a (nearly) deprecated
.C() interface, which you should not use, as it has serious
performance loss compared to the .Call() interface.
If you are interested in some simplifications of R's C interface but don't want to jump to C++, you might consider taking a look at the C project RNACI, which is also available as a header-only library.
C++
Here we use Rcpp. Using RcppAttributes (noted
by the // [[Rcpp::export]] calls), we can write something that
looks very much like C++, and use Rcpp's (R function)
compileAttributes() to generate C-level and R-level R wrappers.
The script Romp/resrc does this.
Fortran
For both F77 and F90+, integration with R is non-trivial. As with C,
there is a (nearly) deprecated interface .Fortran() which you should
not use due to its large performance overhead. Instead, you should:
- Write your Fortran code.
- Write a C wrapper of the Fortran code using R's
.Call()interface (or Rcpp if you prefer). - Call the C code from R using
.Call(().
As noted, you can use Rcpp in lieu of R's basic C interface for wrapping Fortran code, though I seriously recommend against it. Bringing in C++ can complicate linking, among other things, and for wrapping C/Fortran code, in my opinion, Rcpp brings little to the table (C++ is another story!). If you are interested in some simplifications of R's C interface but don't want to jump to use Rcpp, you might consider taking a look at RNACI.
It is difficult to reliably use F90+ functions and subroutines which
live in modules without the use of the F2003 iso_c_binding module
(which has been supported by every compiler for ages). This package
gives some nice examples of how to use module code.
A final note about F90+ in particular, is that some of the advice in Writing R Extensions is not always entirely accurate.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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