mapnik/benchmark/run.cpp

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#include <mapnik/graphics.hpp>
#include <mapnik/image_data.hpp>
#include <mapnik/image_util.hpp>
#include <mapnik/image_reader.hpp>
#include <mapnik/util/conversions.hpp>
// stl
#include <string>
#include <iostream>
#include <fstream>
#include <sstream>
#include <cstdio>
// boost
#include <boost/shared_ptr.hpp>
#include <boost/make_shared.hpp>
#include <boost/bind.hpp>
#define BOOST_CHRONO_HEADER_ONLY
#include <boost/chrono/process_cpu_clocks.hpp>
#include <boost/chrono.hpp>
#include <boost/thread/thread.hpp>
using namespace boost::chrono;
using namespace mapnik;
typedef process_cpu_clock clock_type;
typedef clock_type::duration dur;
template <typename T>
void benchmark(T test, std::string const& name)
{
if (!test.validate()) throw std::runtime_error(std::string("test did not validate: ") + name);
process_cpu_clock::time_point start;
dur elapsed;
if (test.threads_ > 0) {
boost::thread_group tg;
for (unsigned i=0;i<test.threads_;++i)
{
tg.create_thread(test);
}
start = process_cpu_clock::now();
tg.join_all();
elapsed = process_cpu_clock::now() - start;
} else {
start = process_cpu_clock::now();
test();
elapsed = process_cpu_clock::now() - start;
}
std::clog << (test.threads_ ? "threaded -> ": "")
<< name << ": "
<< boost::chrono::duration_cast<milliseconds>(elapsed) << "\n";
}
bool compare_images(std::string const& src_fn,std::string const& dest_fn)
{
std::auto_ptr<mapnik::image_reader> reader1(mapnik::get_image_reader(dest_fn,"png"));
if (!reader1.get())
{
throw mapnik::image_reader_exception("Failed to load: " + dest_fn);
}
boost::shared_ptr<image_32> image_ptr1 = boost::make_shared<image_32>(reader1->width(),reader1->height());
reader1->read(0,0,image_ptr1->data());
std::auto_ptr<mapnik::image_reader> reader2(mapnik::get_image_reader(src_fn,"png"));
if (!reader2.get())
{
throw mapnik::image_reader_exception("Failed to load: " + src_fn);
}
boost::shared_ptr<image_32> image_ptr2 = boost::make_shared<image_32>(reader2->width(),reader2->height());
reader2->read(0,0,image_ptr2->data());
image_data_32 const& dest = image_ptr1->data();
image_data_32 const& src = image_ptr2->data();
unsigned int width = src.width();
unsigned int height = src.height();
if ((width != dest.width()) || height != dest.height()) return false;
for (unsigned int y = 0; y < height; ++y)
{
const unsigned int* row_from = src.getRow(y);
const unsigned int* row_to = dest.getRow(y);
for (unsigned int x = 0; x < width; ++x)
{
if (row_from[x] != row_to[x]) return false;
}
}
return true;
}
struct test1
{
unsigned iter_;
unsigned threads_;
explicit test1(unsigned iterations, unsigned threads=0) :
iter_(iterations),
threads_(threads)
{}
bool validate()
{
return true;
}
void operator()()
{
mapnik::image_data_32 im(256,256);
std::string out;
for (int i=0;i<iter_;++i) {
out.clear();
out = mapnik::save_to_string(im,"png");
}
}
};
struct test2
{
unsigned iter_;
unsigned threads_;
boost::shared_ptr<image_32> im_;
explicit test2(unsigned iterations, unsigned threads=0) :
iter_(iterations),
threads_(threads),
im_()
{
std::string filename("./benchmark/data/multicolor.png");
std::auto_ptr<mapnik::image_reader> reader(mapnik::get_image_reader(filename,"png"));
if (!reader.get())
{
throw mapnik::image_reader_exception("Failed to load: " + filename);
}
im_ = boost::make_shared<image_32>(reader->width(),reader->height());
reader->read(0,0,im_->data());
}
bool validate()
{
std::string expected("./benchmark/data/multicolor-hextree-expected.png");
std::string actual("./benchmark/data/multicolor-hextree-actual.png");
mapnik::save_to_file(im_->data(),actual, "png8:m=h");
return compare_images(actual,expected);
}
void operator()()
{
std::string out;
for (int i=0;i<iter_;++i) {
out.clear();
out = mapnik::save_to_string(im_->data(),"png8:m=h");
}
}
};
struct test3
{
unsigned iter_;
unsigned threads_;
double val_;
explicit test3(unsigned iterations, unsigned threads=0) :
iter_(iterations),
threads_(threads),
val_(-0.123) {}
bool validate()
{
std::ostringstream s;
s << val_;
return (s.str() == "-0.123");
}
void operator()()
{
std::string out;
for (int i=0;i<iter_;++i) {
std::ostringstream s;
s << val_;
out = s.str();
}
}
};
struct test4
{
unsigned iter_;
unsigned threads_;
double val_;
explicit test4(unsigned iterations, unsigned threads=0) :
iter_(iterations),
threads_(threads),
val_(-0.123) {}
bool validate()
{
std::string s;
mapnik::util::to_string(s,val_);
return (s == "-0.123");
}
void operator()()
{
std::string out;
for (int i=0;i<iter_;++i) {
out.clear();
mapnik::util::to_string(out,val_);
}
}
};
struct test5
{
unsigned iter_;
unsigned threads_;
double val_;
explicit test5(unsigned iterations, unsigned threads=0) :
iter_(iterations),
threads_(threads),
val_(-0.123) {}
bool validate()
{
std::string s;
to_string_impl(s,val_);
return (s == "-0.123");
}
void to_string_impl(std::string &s , double val)
{
s.resize(s.capacity());
while (true)
{
size_t n2 = static_cast<size_t>(snprintf(&s[0], s.size()+1, "%g", val_));
if (n2 <= s.size())
{
s.resize(n2);
break;
}
s.resize(n2);
}
}
void operator()()
{
std::string out;
for (int i=0;i<iter_;++i)
{
out.clear();
to_string_impl(out , val_);
}
}
};
int main( int, char*[] )
{
try
{
std::cout << "starting benchmark…\n";
{
test1 runner(100);
benchmark(runner,"encoding blank image as png");
}
{
test2 runner(100);
benchmark(runner,"encoding multicolor image as png8:m=h");
}
{
test1 runner(10,10);
benchmark(runner,"encoding blank image as png");
}
{
test2 runner(10,10);
benchmark(runner,"encoding multicolor image as png8:m=h");
}
{
test3 runner(1000000);
benchmark(runner,"double to string conversion with std::ostringstream");
}
{
test4 runner(1000000);
benchmark(runner,"double to string conversion with mapnik::util_to_string");
}
{
test5 runner(1000000);
benchmark(runner,"double to string conversion with snprintf");
}
{
test3 runner(1000000,10);
benchmark(runner,"double to string conversion with std::ostringstream");
}
{
test4 runner(1000000,10);
benchmark(runner,"double to string conversion with mapnik::util_to_string");
}
{
test5 runner(1000000,10);
benchmark(runner,"double to string conversion with snprintf");
}
std::cout << "...benchmark done\n";
return 0;
}
catch (std::exception const& ex)
{
std::clog << "test error: " << ex.what() << "\n";
return -1;
}
}