libs/gil/test/legacy/performance.cpp
// // Copyright 2005-2007 Adobe Systems Incorporated // // Distributed under the Boost Software License, Version 1.0 // See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt // #include <boost/gil.hpp> #include <boost/core/lightweight_test.hpp> #include <cstddef> #include <ctime> #include <iostream> // GIL performance test suite // // Available tests: // fill_pixels() on rgb8_image_t with rgb8_pixel_t // fill_pixels() on rgb8_planar_image_t with rgb8_pixel_t // fill_pixels() on rgb8_image_t with bgr8_pixel_t // fill_pixels() on rgb8_planar_image_t with bgr8_pixel_t // for_each_pixel() on rgb8_image_t // for_each_pixel() on rgb8_planar_t // copy_pixels() between rgb8_image_t and rgb8_image_t // copy_pixels() between rgb8_image_t and bgr8_image_t // copy_pixels() between rgb8_planar_image_t and rgb8_planar_image_t // copy_pixels() between rgb8_image_t and rgb8_planar_image_t // copy_pixels() between rgb8_planar_image_t and rgb8_image_t // transform_pixels() between rgb8_image_t and rgb8_image_t // transform_pixels() between rgb8_planar_image_t and rgb8_planar_image_t // transform_pixels() between rgb8_planar_image_t and rgb8_image_t // transform_pixels() between rgb8_image_t and rgb8_planar_image_t using namespace boost::gil; // returns time in milliseconds per call template <typename Op> double measure_time(Op op, std::size_t num_loops) { clock_t begin=clock(); for (std::size_t ii=0; ii<num_loops; ++ii) op(); return double(clock()-begin)/double(num_loops); } // image dimension std::size_t width=1000, height=400; // macros for standard GIL views #define RGB_VIEW(T) image_view<memory_based_2d_locator<memory_based_step_iterator<pixel<T,rgb_layout_t>*>>> #define BGR_VIEW(T) image_view<memory_based_2d_locator<memory_based_step_iterator<pixel<T,bgr_layout_t>*>>> #define RGB_PLANAR_VIEW(T) image_view<memory_based_2d_locator<memory_based_step_iterator<planar_pixel_iterator<T*,rgb_t>>>> template <typename View, typename P> struct fill_gil_t { View _v; P _p; fill_gil_t(const View& v_in,const P& p_in) : _v(v_in), _p(p_in) {} void operator()() const {fill_pixels(_v,_p);} }; template <typename View, typename P> struct fill_nongil_t; template <typename T, typename P> struct fill_nongil_t<RGB_VIEW(T), P> { using View = RGB_VIEW(T); View _v; P _p; fill_nongil_t(const View& v_in,const P& p_in) : _v(v_in), _p(p_in) {} void operator()() const { T* first=(T*)_v.row_begin(0); T* last=first+_v.size()*3; while(first!=last) { first[0]=boost::gil::at_c<0>(_p); first[1]=boost::gil::at_c<1>(_p); first[2]=boost::gil::at_c<2>(_p); first+=3; } } }; template <typename T1, typename T2> struct fill_nongil_t<RGB_VIEW(T1), pixel<T2,bgr_layout_t>> { using View = RGB_VIEW(T1); using P = pixel<T2, bgr_layout_t>; View _v; P _p; fill_nongil_t(const View& v_in,const P& p_in) : _v(v_in), _p(p_in) {} void operator()() const { T1* first=(T1*)_v.row_begin(0); T1* last=first+_v.size()*3; while(first!=last) { first[0]=boost::gil::at_c<2>(_p); first[1]=boost::gil::at_c<1>(_p); first[2]=boost::gil::at_c<0>(_p); first+=3; } } }; template <typename T1, typename T2> struct fill_nongil_t<RGB_PLANAR_VIEW(T1), pixel<T2,rgb_layout_t>> { using View = RGB_PLANAR_VIEW(T1); using P = pixel<T2, rgb_layout_t>; View _v; P _p; fill_nongil_t(const View& v_in,const P& p_in) : _v(v_in), _p(p_in) {} void operator()() const { std::size_t size=_v.size(); T1* first; first=(T1*)boost::gil::at_c<0>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<0>(_p)); first=(T1*)boost::gil::at_c<1>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<1>(_p)); first=(T1*)boost::gil::at_c<2>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<2>(_p)); } }; template <typename T1, typename T2> struct fill_nongil_t<RGB_PLANAR_VIEW(T1), pixel<T2,bgr_layout_t>> { using View = RGB_PLANAR_VIEW(T1); using P = pixel<T2,bgr_layout_t>; View _v; P _p; fill_nongil_t(const View& v_in,const P& p_in) : _v(v_in), _p(p_in) {} void operator()() const { std::size_t size=_v.size(); T1* first; first=(T1*)boost::gil::at_c<0>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<2>(_p)); first=(T1*)boost::gil::at_c<1>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<1>(_p)); first=(T1*)boost::gil::at_c<2>(_v.row_begin(0)); std::fill(first,first+size,boost::gil::at_c<1>(_p)); } }; template <typename View, typename P> void test_fill(std::size_t trials) { image<typename View::value_type, is_planar<View>::value> im(width,height); std::cout << "GIL: "<< measure_time(fill_gil_t<View,P>(view(im),P()),trials) << std::endl; std::cout << "Non-GIL: "<< measure_time(fill_nongil_t<View,P>(view(im),P()),trials) << std::endl; }; template <typename T> struct rgb_fr_t { void operator()(pixel<T,rgb_layout_t>& p) const {p[0]=0;p[1]=1;p[2]=2;} void operator()(const planar_pixel_reference<T&,rgb_t>& p) const {p[0]=0;p[1]=1;p[2]=2;} }; template <typename View, typename F> struct for_each_gil_t { View _v; F _f; for_each_gil_t(const View& v_in,const F& f_in) : _v(v_in), _f(f_in) {} void operator()() const {for_each_pixel(_v,_f);} }; template <typename View, typename F> struct for_each_nongil_t; template <typename T, typename T2> struct for_each_nongil_t<RGB_VIEW(T), rgb_fr_t<T2>> { using View = RGB_VIEW(T); using F = rgb_fr_t<T2>; View _v; F _f; for_each_nongil_t(const View& v_in,const F& f_in) : _v(v_in), _f(f_in) {} void operator()() const { T* first=(T*)_v.row_begin(0); T* last=first+_v.size()*3; while(first!=last) { first[0]=0; first[1]=1; first[2]=2; first+=3; } } }; template <typename T1, typename T2> struct for_each_nongil_t<RGB_PLANAR_VIEW(T1), rgb_fr_t<T2>> { using View = RGB_PLANAR_VIEW(T1); using F = rgb_fr_t<T2>; View _v; F _f; for_each_nongil_t(const View& v_in,const F& f_in) : _v(v_in), _f(f_in) {} void operator()() const { T1 *first0, *first1, *first2, *last0; first0=(T1*)boost::gil::at_c<0>(_v.row_begin(0)); first1=(T1*)boost::gil::at_c<1>(_v.row_begin(0)); first2=(T1*)boost::gil::at_c<2>(_v.row_begin(0)); last0=first0+_v.size(); while(first0!=last0) { *first0++=0; *first1++=1; *first2++=2; } } }; template <typename View, typename F> void test_for_each(std::size_t trials) { image<typename View::value_type, is_planar<View>::value> im(width,height); std::cout << "GIL: "<<measure_time(for_each_gil_t<View,F>(view(im),F()),trials) << std::endl; std::cout << "Non-GIL: "<<measure_time(for_each_nongil_t<View,F>(view(im),F()),trials) << std::endl; } // copy template <typename View1, typename View2> struct copy_gil_t { View1 _v1; View2 _v2; copy_gil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const {copy_pixels(_v1,_v2);} }; template <typename View1, typename View2> struct copy_nongil_t; template <typename T1, typename T2> struct copy_nongil_t<RGB_VIEW(T1),RGB_VIEW(T2)> { using View1 = RGB_VIEW(T1); using View2 = RGB_VIEW(T2); View1 _v1; View2 _v2; copy_nongil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const { T1* first1=(T1*)_v1.row_begin(0); T1* last1=first1+_v1.size()*3; T2* first2=(T2*)_v2.row_begin(0); std::copy(first1,last1,first2); } }; template <typename T1, typename T2> struct copy_nongil_t<RGB_VIEW(T1),BGR_VIEW(T2)> { using View1 = RGB_VIEW(T1); using View2 = BGR_VIEW(T2); View1 _v1; View2 _v2; copy_nongil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const { T1* first1=(T1*)_v1.row_begin(0); T1* last1=first1+_v1.size()*3; T2* first2=(T2*)_v2.row_begin(0); while(first1!=last1) { first2[2]=first1[0]; first2[1]=first1[1]; first2[0]=first1[2]; first1+=3; first2+=3; } } }; template <typename T1, typename T2> struct copy_nongil_t<RGB_PLANAR_VIEW(T1),RGB_PLANAR_VIEW(T2)> { using View1 = RGB_PLANAR_VIEW(T1); using View2 = RGB_PLANAR_VIEW(T2); View1 _v1; View2 _v2; copy_nongil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const { std::size_t size=_v1.size(); T1* first10=(T1*)boost::gil::at_c<0>(_v1.row_begin(0)); T1* first11=(T1*)boost::gil::at_c<1>(_v1.row_begin(0)); T1* first12=(T1*)boost::gil::at_c<2>(_v1.row_begin(0)); T2* first20=(T2*)boost::gil::at_c<0>(_v2.row_begin(0)); T2* first21=(T2*)boost::gil::at_c<1>(_v2.row_begin(0)); T2* first22=(T2*)boost::gil::at_c<2>(_v2.row_begin(0)); std::copy(first10,first10+size,first20); std::copy(first11,first11+size,first21); std::copy(first12,first12+size,first22); } }; template <typename T1, typename T2> struct copy_nongil_t<RGB_VIEW(T1),RGB_PLANAR_VIEW(T2)> { using View1 = RGB_VIEW(T1); using View2 = RGB_PLANAR_VIEW(T2); View1 _v1; View2 _v2; copy_nongil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const { T1* first=(T1*)_v1.row_begin(0); T1* last=first+_v1.size()*3; T2* first0=(T2*)boost::gil::at_c<0>(_v2.row_begin(0)); T2* first1=(T2*)boost::gil::at_c<1>(_v2.row_begin(0)); T2* first2=(T2*)boost::gil::at_c<2>(_v2.row_begin(0)); while(first!=last) { *first0++=first[0]; *first1++=first[1]; *first2++=first[2]; first+=3; } } }; template <typename T1, typename T2> struct copy_nongil_t<RGB_PLANAR_VIEW(T1),RGB_VIEW(T2)> { using View1 = RGB_PLANAR_VIEW(T1); using View2 = RGB_VIEW(T2); View1 _v1; View2 _v2; copy_nongil_t(const View1& v1_in,const View2& v2_in) : _v1(v1_in), _v2(v2_in) {} void operator()() const { T1* first=(T1*)_v2.row_begin(0); T1* last=first+_v2.size()*3; T2* first0=(T2*)boost::gil::at_c<0>(_v1.row_begin(0)); T2* first1=(T2*)boost::gil::at_c<1>(_v1.row_begin(0)); T2* first2=(T2*)boost::gil::at_c<2>(_v1.row_begin(0)); while(first!=last) { first[0]=*first0++; first[1]=*first1++; first[2]=*first2++; first+=3; } } }; template <typename View1, typename View2> void test_copy(std::size_t trials) { image<typename View1::value_type, is_planar<View1>::value> im1(width,height); image<typename View2::value_type, is_planar<View2>::value> im2(width,height); std::cout << "GIL: " <<measure_time(copy_gil_t<View1,View2>(view(im1),view(im2)),trials) << std::endl; std::cout << "Non-GIL: "<<measure_time(copy_nongil_t<View1,View2>(view(im1),view(im2)),trials) << std::endl; } // transform() template <typename T,typename Pixel> struct bgr_to_rgb_t { pixel<T,rgb_layout_t> operator()(const Pixel& p) const { return pixel<T,rgb_layout_t>(T(get_color(p,blue_t())*0.1f), T(get_color(p,green_t())*0.2f), T(get_color(p,red_t())*0.3f)); } }; template <typename View1, typename View2, typename F> struct transform_gil_t { View1 _v1; View2 _v2; F _f; transform_gil_t(const View1& v1_in,const View2& v2_in,const F& f_in) : _v1(v1_in),_v2(v2_in),_f(f_in) {} void operator()() const {transform_pixels(_v1,_v2,_f);} }; template <typename View1, typename View2, typename F> struct transform_nongil_t; template <typename T1, typename T2, typename F> struct transform_nongil_t<RGB_VIEW(T1),RGB_VIEW(T2),F> { using View1 = RGB_VIEW(T1); using View2 = RGB_VIEW(T2); View1 _v1; View2 _v2; F _f; transform_nongil_t(const View1& v1_in,const View2& v2_in,const F& f_in) : _v1(v1_in),_v2(v2_in),_f(f_in) {} void operator()() const { T1* first1=(T1*)_v1.row_begin(0); T2* first2=(T1*)_v2.row_begin(0); T1* last1=first1+_v1.size()*3; while(first1!=last1) { first2[0]=T2(first1[2]*0.1f); first2[1]=T2(first1[1]*0.2f); first2[2]=T2(first1[0]*0.3f); first1+=3; first2+=3; } } }; template <typename T1, typename T2, typename F> struct transform_nongil_t<RGB_PLANAR_VIEW(T1),RGB_PLANAR_VIEW(T2),F> { using View1 = RGB_PLANAR_VIEW(T1); using View2 = RGB_PLANAR_VIEW(T2); View1 _v1; View2 _v2; F _f; transform_nongil_t(const View1& v1_in,const View2& v2_in,const F& f_in) : _v1(v1_in),_v2(v2_in),_f(f_in) {} void operator()() const { T1* first10=(T1*)boost::gil::at_c<0>(_v1.row_begin(0)); T1* first11=(T1*)boost::gil::at_c<1>(_v1.row_begin(0)); T1* first12=(T1*)boost::gil::at_c<2>(_v1.row_begin(0)); T1* first20=(T2*)boost::gil::at_c<0>(_v2.row_begin(0)); T1* first21=(T2*)boost::gil::at_c<1>(_v2.row_begin(0)); T1* first22=(T2*)boost::gil::at_c<2>(_v2.row_begin(0)); T1* last10=first10+_v1.size(); while(first10!=last10) { *first20++=T2(*first12++*0.1f); *first21++=T2(*first11++*0.2f); *first22++=T2(*first10++*0.3f); } } }; template <typename T1, typename T2, typename F> struct transform_nongil_t<RGB_VIEW(T1),RGB_PLANAR_VIEW(T2),F> { using View1 = RGB_VIEW(T1); using View2 = RGB_PLANAR_VIEW(T2); View1 _v1; View2 _v2; F _f; transform_nongil_t(const View1& v1_in,const View2& v2_in,const F& f_in) : _v1(v1_in),_v2(v2_in),_f(f_in) {} void operator()() const { T1* first1=(T1*)_v1.row_begin(0); T1* last1=first1+_v1.size()*3; T1* first20=(T2*)boost::gil::at_c<0>(_v2.row_begin(0)); T1* first21=(T2*)boost::gil::at_c<1>(_v2.row_begin(0)); T1* first22=(T2*)boost::gil::at_c<2>(_v2.row_begin(0)); while(first1!=last1) { *first20++=T2(first1[2]*0.1f); *first21++=T2(first1[1]*0.2f); *first22++=T2(first1[0]*0.3f); first1+=3; } } }; template <typename T1, typename T2, typename F> struct transform_nongil_t<RGB_PLANAR_VIEW(T1),RGB_VIEW(T2),F> { using View1 = RGB_PLANAR_VIEW(T1); using View2 = RGB_VIEW(T2); View1 _v1; View2 _v2; F _f; transform_nongil_t(const View1& v1_in,const View2& v2_in,const F& f_in) : _v1(v1_in),_v2(v2_in),_f(f_in) {} void operator()() const { T1* first10=(T1*)boost::gil::at_c<0>(_v1.row_begin(0)); T1* first11=(T1*)boost::gil::at_c<1>(_v1.row_begin(0)); T1* first12=(T1*)boost::gil::at_c<2>(_v1.row_begin(0)); T2* first2=(T1*)_v2.row_begin(0); T1* last2=first2+_v1.size()*3; while(first2!=last2) { first2[0]=T2(*first12++*0.1f); first2[1]=T2(*first11++*0.2f); first2[2]=T2(*first10++*0.3f); first2+=3; } } }; template <typename View1, typename View2, typename F> void test_transform(std::size_t trials) { image<typename View1::value_type, is_planar<View1>::value> im1(width,height); image<typename View2::value_type, is_planar<View2>::value> im2(width,height); //std::cout << "GIL: " <<measure_time(transform_gil_t<View1,View2,F>(view(im1),view(im2),F()),trials) << std::endl; //std::cout << "Non-GIL: "<<measure_time(transform_nongil_t<View1,View2,F>(view(im1),view(im2),F()),trials) << std::endl; } void test_performance() { #ifdef NDEBUG std::size_t num_trials=1000; #else std::size_t num_trials=1; #endif // fill() std::cout<<"test fill_pixels() on rgb8_image_t with rgb8_pixel_t"<<std::endl; test_fill<rgb8_view_t,rgb8_pixel_t>(num_trials); std::cout<<std::endl; std::cout<<"test fill_pixels() on rgb8_planar_image_t with rgb8_pixel_t"<<std::endl; test_fill<rgb8_planar_view_t,rgb8_pixel_t>(num_trials); std::cout<<std::endl; std::cout<<"test fill_pixels() on rgb8_image_t with bgr8_pixel_t"<<std::endl; test_fill<rgb8_view_t,bgr8_pixel_t>(num_trials); std::cout<<std::endl; std::cout<<"test fill_pixels() on rgb8_planar_image_t with bgr8_pixel_t"<<std::endl; test_fill<rgb8_planar_view_t,bgr8_pixel_t>(num_trials); std::cout<<std::endl; // for_each() std::cout<<"test for_each_pixel() on rgb8_image_t"<<std::endl; test_for_each<rgb8_view_t,rgb_fr_t<uint8_t> >(num_trials); std::cout<<std::endl; std::cout<<"test for_each_pixel() on rgb8_planar_image_t"<<std::endl; test_for_each<rgb8_planar_view_t,rgb_fr_t<uint8_t> >(num_trials); std::cout<<std::endl; // copy() std::cout<<"test copy_pixels() between rgb8_image_t and rgb8_image_t"<<std::endl; test_copy<rgb8_view_t,rgb8_view_t>(num_trials); std::cout<<std::endl; std::cout<<"test copy_pixels() between rgb8_image_t and bgr8_image_t"<<std::endl; test_copy<rgb8_view_t,bgr8_view_t>(num_trials); std::cout<<std::endl; std::cout<<"test copy_pixels() between rgb8_planar_image_t and rgb8_planar_image_t"<<std::endl; test_copy<rgb8_planar_view_t,rgb8_planar_view_t>(num_trials); std::cout<<std::endl; std::cout<<"test copy_pixels() between rgb8_image_t and rgb8_planar_image_t"<<std::endl; test_copy<rgb8_view_t,rgb8_planar_view_t>(num_trials); std::cout<<std::endl; std::cout<<"test copy_pixels() between rgb8_planar_image_t and rgb8_image_t"<<std::endl; test_copy<rgb8_planar_view_t,rgb8_view_t>(num_trials); std::cout<<std::endl; // transform() std::cout<<"test transform_pixels() between rgb8_image_t and rgb8_image_t"<<std::endl; test_transform<rgb8_view_t,rgb8_view_t,bgr_to_rgb_t<uint8_t,pixel<uint8_t,rgb_layout_t> > >(num_trials); std::cout<<std::endl; std::cout<<"test transform_pixels() between rgb8_planar_image_t and rgb8_planar_image_t"<<std::endl; test_transform<rgb8_planar_view_t,rgb8_planar_view_t,bgr_to_rgb_t<uint8_t,planar_pixel_reference<uint8_t,rgb_t> > >(num_trials); std::cout<<std::endl; std::cout<<"test transform_pixels() between rgb8_image_t and rgb8_planar_image_t"<<std::endl; test_transform<rgb8_view_t,rgb8_planar_view_t,bgr_to_rgb_t<uint8_t,pixel<uint8_t,rgb_layout_t> > >(num_trials); std::cout<<std::endl; std::cout<<"test transform_pixels() between rgb8_planar_image_t and rgb8_image_t"<<std::endl; test_transform<rgb8_planar_view_t,rgb8_view_t,bgr_to_rgb_t<uint8_t,planar_pixel_reference<uint8_t,rgb_t> > >(num_trials); std::cout<<std::endl; } int main() { test_performance(); return ::boost::report_errors(); }