inst/examples/OpenMP/OpenMPandInline.r
In jjallaire/Rcpp: Seamless R and C++ Integration
#!/usr/bin/r
library(inline)
library(rbenchmark)
serialCode <- '
// assign to C++ vector
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
size_t n = x.size();
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return Rcpp::wrap(x);
'
funSerial <- cxxfunction(signature(xs="numeric"), body=serialCode, plugin="Rcpp")
serialStdAlgCode <- '
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
std::transform(x.begin(), x.end(), x.begin(), ::log);
return Rcpp::wrap(x);
'
funSerialStdAlg <- cxxfunction(signature(xs="numeric"), body=serialStdAlgCode, plugin="Rcpp")
## same, but with Rcpp vector just to see if there is measurable difference
serialRcppCode <- '
// assign to C++ vector
Rcpp::NumericVector x = Rcpp::NumericVector(xs);
size_t n = x.size();
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return x;
'
funSerialRcpp <- cxxfunction(signature(xs="numeric"), body=serialRcppCode, plugin="Rcpp")
serialStdAlgRcppCode <- '
Rcpp::NumericVector x = Rcpp::NumericVector(xs);
std::transform(x.begin(), x.end(), x.begin(), ::log);
return x;
'
funSerialStdAlgRcpp <- cxxfunction(signature(xs="numeric"), body=serialStdAlgRcppCode, plugin="Rcpp")
serialImportTransRcppCode <- '
Rcpp::NumericVector x(xs);
return Rcpp::NumericVector::import_transform(x.begin(), x.end(), ::log);
'
funSerialImportTransRcpp <- cxxfunction(signature(xs="numeric"), body=serialImportTransRcppCode, plugin="Rcpp")
## now with a sugar expression with internalizes the loop
sugarRcppCode <- '
// assign to C++ vector
Rcpp::NumericVector x = log ( Rcpp::NumericVector(xs) );
return x;
'
funSugarRcpp <- cxxfunction(signature(xs="numeric"), body=sugarRcppCode, plugin="Rcpp")
## lastly via OpenMP for parallel use
openMPCode <- '
// assign to C++ vector
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
size_t n = x.size();
#pragma omp parallel for shared(x, n)
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return Rcpp::wrap(x);
'
## modify the plugin for Rcpp to support OpenMP
settings <- getPlugin("Rcpp")
settings$env$PKG_CXXFLAGS <- paste('-fopenmp', settings$env$PKG_CXXFLAGS)
settings$env$PKG_LIBS <- paste('-fopenmp -lgomp', settings$env$PKG_LIBS)
funOpenMP <- cxxfunction(signature(xs="numeric"), body=openMPCode, plugin="Rcpp", settings=settings)
z <- seq(1, 2e6)
res <- benchmark(funSerial(z), funSerialStdAlg(z),
funSerialRcpp(z), funSerialStdAlgRcpp(z),
funSerialImportTransRcpp(z),
funOpenMP(z), funSugarRcpp(z),
columns=c("test", "replications", "elapsed",
"relative", "user.self", "sys.self"),
order="relative",
replications=100)
print(res)
jjallaire/Rcpp documentation built on May 19, 2019, 11:37 a.m.
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#!/usr/bin/r
library(inline)
library(rbenchmark)
serialCode <- '
// assign to C++ vector
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
size_t n = x.size();
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return Rcpp::wrap(x);
'
funSerial <- cxxfunction(signature(xs="numeric"), body=serialCode, plugin="Rcpp")
serialStdAlgCode <- '
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
std::transform(x.begin(), x.end(), x.begin(), ::log);
return Rcpp::wrap(x);
'
funSerialStdAlg <- cxxfunction(signature(xs="numeric"), body=serialStdAlgCode, plugin="Rcpp")
## same, but with Rcpp vector just to see if there is measurable difference
serialRcppCode <- '
// assign to C++ vector
Rcpp::NumericVector x = Rcpp::NumericVector(xs);
size_t n = x.size();
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return x;
'
funSerialRcpp <- cxxfunction(signature(xs="numeric"), body=serialRcppCode, plugin="Rcpp")
serialStdAlgRcppCode <- '
Rcpp::NumericVector x = Rcpp::NumericVector(xs);
std::transform(x.begin(), x.end(), x.begin(), ::log);
return x;
'
funSerialStdAlgRcpp <- cxxfunction(signature(xs="numeric"), body=serialStdAlgRcppCode, plugin="Rcpp")
serialImportTransRcppCode <- '
Rcpp::NumericVector x(xs);
return Rcpp::NumericVector::import_transform(x.begin(), x.end(), ::log);
'
funSerialImportTransRcpp <- cxxfunction(signature(xs="numeric"), body=serialImportTransRcppCode, plugin="Rcpp")
## now with a sugar expression with internalizes the loop
sugarRcppCode <- '
// assign to C++ vector
Rcpp::NumericVector x = log ( Rcpp::NumericVector(xs) );
return x;
'
funSugarRcpp <- cxxfunction(signature(xs="numeric"), body=sugarRcppCode, plugin="Rcpp")
## lastly via OpenMP for parallel use
openMPCode <- '
// assign to C++ vector
std::vector<double> x = Rcpp::as<std::vector< double > >(xs);
size_t n = x.size();
#pragma omp parallel for shared(x, n)
for (size_t i=0; i<n; i++) {
x[i] = ::log(x[i]);
}
return Rcpp::wrap(x);
'
## modify the plugin for Rcpp to support OpenMP
settings <- getPlugin("Rcpp")
settings$env$PKG_CXXFLAGS <- paste('-fopenmp', settings$env$PKG_CXXFLAGS)
settings$env$PKG_LIBS <- paste('-fopenmp -lgomp', settings$env$PKG_LIBS)
funOpenMP <- cxxfunction(signature(xs="numeric"), body=openMPCode, plugin="Rcpp", settings=settings)
z <- seq(1, 2e6)
res <- benchmark(funSerial(z), funSerialStdAlg(z),
funSerialRcpp(z), funSerialStdAlgRcpp(z),
funSerialImportTransRcpp(z),
funOpenMP(z), funSugarRcpp(z),
columns=c("test", "replications", "elapsed",
"relative", "user.self", "sys.self"),
order="relative",
replications=100)
print(res)
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