Ejemplo n.º 1
0
sge::renderer::vertex::buffer_unique_ptr
sge::renderer::vertex::create_buffer_from_view(
	sge::renderer::device::core &_device,
	sge::renderer::vertex::declaration &_vertex_declaration,
	sge::renderer::vf::dynamic::const_view const &_view,
	sge::renderer::resource_flags_field const &_resource_flags
)
{
	sge::renderer::vertex::buffer_unique_ptr buffer(
		_device.create_vertex_buffer(
			sge::renderer::vertex::buffer_parameters(
				_vertex_declaration,
				_view.part_index(),
				sge::renderer::vertex::count(
					_view.size()
				),
				_resource_flags
			)
		)
	);

	sge::renderer::vertex::scoped_lock const lock(
		*buffer,
		sge::renderer::lock_mode::writeonly
	);

	std::memcpy(
		lock.value().data(),
		_view.data(),
		_view.part().stride().get()
		* _view.size().get()
	);

	return
		buffer;
}
Ejemplo n.º 2
0
int
main()
try
{
	sge::opencl::system opencl_system;

	fcppt::io::cout()
		<< FCPPT_TEXT("Querying the number of available platforms...\n");

	sge::opencl::platform::object_sequence &platforms(
		opencl_system.platforms());

	if(platforms.empty())
	{
		fcppt::io::cerr()
			<< FCPPT_TEXT("Couldn't find any OpenCL platforms on your system.\n");
		return EXIT_FAILURE;
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Number of OpenCL platforms: ") << platforms.size() << FCPPT_TEXT("\n")
		<< FCPPT_TEXT("Platform listing begin:\n")
		<< FCPPT_TEXT("-----------------------\n");

	sge::opencl::platform::object_sequence::size_type platform_index = 0;
	for(
		sge::opencl::platform::object const &current_platform
		:
		platforms
	)
	{
		fcppt::io::cout()
			<< FCPPT_TEXT("\tPlatform ")
			<< platform_index++
			<< FCPPT_TEXT(":\n")
			<< FCPPT_TEXT("\tName: ")
			<< fcppt::from_std_string(
				current_platform.name()
			)
			<< FCPPT_TEXT("\n")
			<< FCPPT_TEXT("\tVendor: ")
			<< fcppt::from_std_string(
				current_platform.vendor()
			)
			<< FCPPT_TEXT("\n")
			<< FCPPT_TEXT("Profile type: ")
			<<
				(current_platform.profile() == sge::opencl::platform::profile_type::full
				?
					fcppt::string(FCPPT_TEXT("full"))
				:
					fcppt::string(FCPPT_TEXT("embedded")))
			<< FCPPT_TEXT("\n")
			<< FCPPT_TEXT("\tVersion: ")
			<< current_platform.version().major_part()
			<< FCPPT_TEXT(".")
			<< current_platform.version().minor_part()
			<< FCPPT_TEXT("\n");

		if(!current_platform.version().platform_specific().empty())
			fcppt::io::cout()
				<< FCPPT_TEXT("\tPlatform specific version info: ")
				<< fcppt::from_std_string(current_platform.version().platform_specific())
				<< FCPPT_TEXT("\n");

		fcppt::io::cout()
			<< FCPPT_TEXT("\tExtension list begin:\n")
			<< FCPPT_TEXT("\t*********************\n")
			<< FCPPT_TEXT("\t\t")
			<<
				fcppt::from_std_string(
					boost::algorithm::join(
						current_platform.extensions(),
						std::string("\n\t\t")))
			<< FCPPT_TEXT("\r\t*********************\n")
			<< FCPPT_TEXT("-----------------------\n");
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Platform listing end\n");

	sge::opencl::platform::object_sequence::size_type chosen_platform_index;
	if(platforms.size() == 1)
	{
		chosen_platform_index = 0;
	}
	else
	{
		fcppt::io::cout()
			<< FCPPT_TEXT("Your choice: ");
		do
			chosen_platform_index =
				query_value_from_user<sge::opencl::platform::object_sequence::size_type>(
					fcppt::io::cin());
		while(chosen_platform_index >= platforms.size());
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("List devices with properties? [y/n] ");

	fcppt::char_type list_devices;
	do
		list_devices =
			query_value_from_user<fcppt::char_type>(
				fcppt::io::cin());
	while(list_devices != FCPPT_TEXT('y') && list_devices != FCPPT_TEXT('n'));

	sge::opencl::platform::object &chosen_platform =
		platforms[chosen_platform_index];

	if(list_devices == FCPPT_TEXT('y'))
	{
		fcppt::io::cout()
			<< FCPPT_TEXT("Number of devices on this platform: ")
			<< chosen_platform.devices().size()
			<< FCPPT_TEXT('\n')
			<< FCPPT_TEXT("Device listing begin:\n")
			<< FCPPT_TEXT("-----------------------\n");

		for(
			sge::opencl::device::object const &current_device
			:
			chosen_platform.devices()
		)
		{
			current_device.output_info(
				std::cout);
			fcppt::io::cout()
				<< FCPPT_TEXT("-----------------------\n");
		}

		fcppt::io::cout()
			<< FCPPT_TEXT("-----------------------\n")
			<< FCPPT_TEXT("Device listing end\n");
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Creating sge::systems object...\n");

	sge::window::dim const window_dim{
		1024u,
		768u
	};

	sge::systems::instance<
		brigand::list<
			sge::systems::with_window,
			sge::systems::with_renderer<
				sge::systems::renderer_caps::core
			>
		>
	> const sys(
		sge::systems::make_list
		(
			// FIXME: Move this higher?
			sge::systems::config()
			.log_settings(
				sge::systems::log_settings{
					sge::log::option_container{
						sge::log::option{
							sge::opencl::log_location(),
							fcppt::log::level::verbose
						}
					}
				}
			)
		)
		(
			sge::systems::window(
				sge::systems::window_source(
					sge::systems::original_window(
						sge::window::title(
							FCPPT_TEXT("Simple OpenCL example")
						)
					)
				)
			)
			.dont_show()
		)
		(
			sge::systems::renderer(
				sge::renderer::pixel_format::object(
					sge::renderer::pixel_format::color::depth32,
					sge::renderer::pixel_format::depth_stencil::off,
					sge::renderer::pixel_format::optional_multi_samples(),
					sge::renderer::pixel_format::srgb::no
				),
				sge::renderer::display_mode::parameters(
					sge::renderer::display_mode::vsync::on,
					sge::renderer::display_mode::optional_object()
				),
				sge::viewport::optional_resize_callback{
					sge::viewport::center_on_resize(
						window_dim
					)
				}
			)
		)
	);

	fcppt::io::cout()
		<< FCPPT_TEXT("Done. Creating a context with all devices on this platform...\n");

	sge::opencl::device::object_ref_sequence const device_refs(
		fcppt::algorithm::map<
			sge::opencl::device::object_ref_sequence
		>(
			chosen_platform.devices(),
			[](
				sge::opencl::device::object &_device
			)
			{
				return
					fcppt::make_ref(
						_device
					);
			}
		)
	);

	sge::opencl::context::object main_context(
		sge::opencl::context::parameters(
			chosen_platform,
			device_refs
		)
		.share_with(
			sys.renderer_device_core())
		.error_callback(
			sge::opencl::context::error_callback{
				&opencl_error_callback
			}
		)
	);

	fcppt::io::cout()
		<< FCPPT_TEXT("Context created, listing available planar image formats (read/write)\n");

	sge::opencl::memory_object::image::format_sequence const planar_image_formats =
		main_context.supported_planar_image_formats(
			CL_MEM_READ_WRITE);

	for(
		auto const format
		:
		planar_image_formats
	)
	{
		sge::opencl::memory_object::image::format_output(
			std::cout,
			format
		);

		std::cout << '\n';
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Listing available volume image formats (read/write)...\n");

	sge::opencl::memory_object::image::format_sequence const volume_image_formats =
		main_context.supported_volume_image_formats(
			CL_MEM_READ_WRITE);

	for(
		auto const format
		:
		volume_image_formats
	)
	{
		sge::opencl::memory_object::image::format_output(
			std::cout,
			format
		);

		std::cout << '\n';
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Done, now creating a program...");

	sge::opencl::program::object main_program(
		sys.log_context(),
		main_context,
		sge::opencl::program::source_string_sequence{
			std::string(
				"__kernel void hello_kernel("
				"float const multiplier,"
				"__global float *input)"
				"{"
				"int gid = get_global_id(0);"
				"int lid = get_local_id(0);"
				"input[gid] = lid * multiplier;"
				"}"
			)
		},
		sge::opencl::program::optional_build_parameters());

	fcppt::io::cout()
		<< FCPPT_TEXT("Program created, building the program...\n");

	volatile bool build_finished =
		false;

	main_program.build(
		sge::opencl::program::build_parameters()
		.notification_callback(
			sge::opencl::program::notification_callback{
				std::bind(
					&program_build_finished,
					std::ref(
						build_finished
					)
				)
			}
		)
	);

	std::cout << "Waiting for build completion\n";
	while(!build_finished)
		std::cout << "Build not finished yet\n";

	fcppt::io::cout()
		<< FCPPT_TEXT("Program built, now creating a kernel...\n");

	sge::opencl::kernel::object main_kernel(
		main_program,
		sge::opencl::kernel::name(
			"hello_kernel"));

	fcppt::io::cout()
		<< FCPPT_TEXT("Kernel created, now creating a vertex buffer...\n");

	sge::renderer::vertex::declaration_unique_ptr const vertex_declaration(
		sys.renderer_device_core().create_vertex_declaration(
			sge::renderer::vertex::declaration_parameters(
				sge::renderer::vf::dynamic::make_format<vf::format>())));

	sge::renderer::vertex::buffer_unique_ptr const vb(
		sys.renderer_device_core().create_vertex_buffer(
			sge::renderer::vertex::buffer_parameters(
				*vertex_declaration,
				sge::renderer::vf::dynamic::make_part_index<
					vf::format,
					vf::part
				>(),
				sge::renderer::vertex::count(
					6u),
				sge::renderer::resource_flags_field{
					sge::renderer::resource_flags::readable})));

	fcppt::io::cout()
		<< FCPPT_TEXT("Done, now creating OpenCL buffer from it\n");

	sge::opencl::memory_object::buffer cl_vb(
		main_context,
		*vb,
		sge::opencl::memory_object::renderer_buffer_lock_mode::write_only);

	main_kernel.argument(
		sge::opencl::kernel::argument_index(
			1u),
		cl_vb);

	main_kernel.argument(
		sge::opencl::kernel::argument_index(
			0u),
		sge::opencl::kernel::numeric_type(
			static_cast<cl_float>(
				2.0
			)
		)
	);

	fcppt::io::cout()
		<< FCPPT_TEXT("Done, now creating a command queue\n");

	sge::opencl::command_queue::object main_queue(
		device_refs[0].get(),
		main_context,
		sge::opencl::command_queue::execution_mode::out_of_order,
		sge::opencl::command_queue::profiling_mode::disabled);

	fcppt::io::cout()
		<< FCPPT_TEXT("Done, now enqueueing kernel and running it\n");

	{
		sge::opencl::memory_object::scoped_objects scoped_vb(
			main_queue,
			sge::opencl::memory_object::base_ref_sequence{
				fcppt::reference_to_base<
					sge::opencl::memory_object::base
				>(
					fcppt::make_ref(
						cl_vb
					)
				)
			}
		);

		sge::opencl::command_queue::enqueue_kernel(
			main_queue,
			main_kernel,
			sge::opencl::command_queue::global_dim1(
				sge::opencl::dim1(
					vb->linear_size()
					* 2u
				)
			),
			sge::opencl::command_queue::local_dim1(
				sge::opencl::dim1(
					2u
				)
			),
			sge::opencl::event::sequence()
		);
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Now locking the vb for reading and printing the values\n");

	{
		sge::renderer::vertex::scoped_lock const scoped_vb(
			*vb,
			sge::renderer::lock_mode::readwrite);

		typedef
		sge::renderer::vf::view<vf::part>
		vertex_view;

		vertex_view const vertices(
			scoped_vb.value());

		for(
			auto const vertex
			:
			vertices
		)
		{
			fcppt::io::cout()
				<< vertex.get<vf::scalar_quantity>()
				<< FCPPT_TEXT('\n');
		}
	}

	fcppt::io::cout()
		<< FCPPT_TEXT("Done\n");
}
catch(
	fcppt::exception const &_error
)
{
	fcppt::io::cerr()
		<< _error.string()
		<< FCPPT_TEXT('\n');

	return EXIT_FAILURE;
}
catch(
	std::exception const &_error
)
{
	std::cerr
		<< _error.what()
		<< '\n';

	return EXIT_FAILURE;
}
Ejemplo n.º 3
0
awl::main::exit_code const
example_main(
	awl::main::function_context const &
)
try
{
	sge::systems::instance<
		brigand::list<
			sge::systems::with_window,
			sge::systems::with_renderer<
				sge::systems::renderer_caps::core
			>,
			sge::systems::with_input
		>
	> const sys(
		sge::systems::make_list
		(
			sge::systems::window(
				sge::systems::window_source(
					sge::systems::original_window(
						sge::window::title(
							FCPPT_TEXT("sge cg simple test")
						)
					)
				)
			)
		)
		(
			sge::systems::renderer(
				sge::renderer::pixel_format::object(
					sge::renderer::pixel_format::color::depth32,
					sge::renderer::pixel_format::depth_stencil::off,
					sge::renderer::pixel_format::optional_multi_samples(),
					sge::renderer::pixel_format::srgb::no
				),
				sge::renderer::display_mode::parameters(
					sge::renderer::display_mode::vsync::on,
					sge::renderer::display_mode::optional_object()
				),
				sge::viewport::optional_resize_callback{
					sge::viewport::fill_on_resize()
				}
			)
		)
		(
			sge::systems::input(
				sge::systems::cursor_option_field::null()
			)
		)
	);

	sge::cg::context::object const cg_context{};

	sge::cg::profile::object const vertex_profile(
		sys.renderer_device_core().create_cg_profile(
			sge::cg::profile::shader_type::vertex
		)
	);

	sge::cg::string const vertex_shader_source(
		"// This is C2E1v_green from \"The Cg Tutorial\" (Addison-Wesley, ISBN\n"
		"// 0321194969) by Randima Fernando and Mark J. Kilgard.  See page 38.\n"
		"\n"
		"struct C2E1v_Output {\n"
		"	float4 position : POSITION;\n"
		"};\n"
		"\n"
		"C2E1v_Output C2E1v_green(float2 position : POSITION)\n"
		"{\n"
		"	C2E1v_Output OUT;\n"
		"\n"
		"	OUT.position = float4(position,0,1);\n"
		"\n"
		"	return OUT;\n"
		"}\n"
	);

	sge::cg::program::object vertex_program(
		sge::cg::program::from_string_parameters(
			cg_context,
			sge::cg::program::source_type::text,
			vertex_profile,
			sge::cg::program::source(
				vertex_shader_source
			),
			sge::cg::program::main_function(
				"C2E1v_green"
			),
			sys.renderer_device_core().cg_compile_options(
				cg_context,
				vertex_profile
			)
		)
	);

	sge::renderer::cg::loaded_program_unique_ptr const loaded_vertex_program(
		sys.renderer_device_core().load_cg_program(
			vertex_program
		)
	);

	sge::cg::profile::object const pixel_profile(
		sys.renderer_device_core().create_cg_profile(
			sge::cg::profile::shader_type::pixel
		)
	);

	sge::cg::string const pixel_shader_source(
		"struct C3E3f_Output {\n"
		"	float4 color : COLOR;\n"
		"};\n"
		"C3E3f_Output\n"
		"C3E3f_simple()\n"
		"{\n"
		"	C3E3f_Output OUT;\n"
		"\n"
		"	OUT.color = float4(0,1,0,1);\n"
		"	return OUT;\n"
		"}\n"
	);

	sge::cg::program::object pixel_program(
		sge::cg::program::from_string_parameters(
			cg_context,
			sge::cg::program::source_type::text,
			pixel_profile,
			sge::cg::program::source(
				pixel_shader_source
			),
			sge::cg::program::main_function(
				"C3E3f_simple"
			),
			sys.renderer_device_core().cg_compile_options(
				cg_context,
				pixel_profile
			)
		)
	);

	sge::renderer::cg::loaded_program_unique_ptr const loaded_pixel_program(
		sys.renderer_device_core().load_cg_program(
			pixel_program
		)
	);

	typedef
	sge::renderer::vf::pos<
		float,
		3
	>
	pos3_type;

	typedef
	sge::renderer::vf::part<
		brigand::list<
			pos3_type
		>
	>
	format_part;

	typedef
	sge::renderer::vf::format<
		brigand::list<
			format_part
		>
	>
	format;

	sge::renderer::vertex::declaration_unique_ptr const vertex_declaration(
		sys.renderer_device_core().create_vertex_declaration(
			sge::renderer::vertex::declaration_parameters(
				sge::renderer::vf::dynamic::make_format<
					format
				>()
			)
		)
	);

	sge::renderer::vertex::buffer_unique_ptr const vertex_buffer(
		sys.renderer_device_core().create_vertex_buffer(
			sge::renderer::vertex::buffer_parameters(
				*vertex_declaration,
				sge::renderer::vf::dynamic::make_part_index<
					format,
					format_part
				>(),
				sge::renderer::vertex::count(
					3u
				),
				sge::renderer::resource_flags_field::null()
			)
		)
	);

	{
		sge::renderer::vertex::scoped_lock const vblock(
			*vertex_buffer,
			sge::renderer::lock_mode::writeonly
		);

		typedef
		sge::renderer::vf::view<
			format_part
		>
		vertex_view;

		vertex_view const vertices(
			vblock.value()
		);

		vertex_view::iterator vb_it(
			vertices.begin()
		);

		typedef
		pos3_type::packed_type
		vec3;

		(*vb_it).set<
			pos3_type
		>(
			vec3(
				-1.f,
				1.f,
				0.f
			)
		);

		++vb_it;

		(*vb_it).set<
			pos3_type
		>(
			vec3(
				-1.f,
				-1.f,
				0.f
			)
		);

		++vb_it;

		(*vb_it).set<
			pos3_type
		>(
			vec3(
				1.f,
				1.f,
				0.f
			)
		);
	}

	auto const draw(
		[
			&loaded_pixel_program,
			&loaded_vertex_program,
			&sys,
			&vertex_buffer,
			&vertex_declaration
		]{
			sge::renderer::context::scoped_core const scoped_block(
				sys.renderer_device_core(),
				sys.renderer_device_core().onscreen_target()
			);

			scoped_block.get().clear(
				sge::renderer::clear::parameters()
				.back_buffer(
					sge::image::color::any::object{
						sge::image::color::predef::black()
					}
				)
			);

			sge::renderer::vertex::scoped_declaration_and_buffers const vb_context(
				scoped_block.get(),
				*vertex_declaration,
				sge::renderer::vertex::const_buffer_ref_container{
					fcppt::make_cref(
						*vertex_buffer
					)
				}
			);

			sge::renderer::cg::scoped_program const scoped_vertex_program(
				scoped_block.get(),
				*loaded_vertex_program
			);

			sge::renderer::cg::scoped_program const scoped_pixel_program(
				scoped_block.get(),
				*loaded_pixel_program
			);

			scoped_block.get().render_nonindexed(
				sge::renderer::vertex::first(
					0u
				),
				sge::renderer::vertex::count(
					3u
				),
				sge::renderer::primitive_type::triangle_list
			);
		}
	);

	return
		sge::window::loop(
			sys.window_system(),
			sge::window::loop_function{
				[
					&sys,
					&draw
				](
					awl::event::base const &_event
				)
				{

					sge::systems::quit_on_escape(
						sys,
						_event
					);

					fcppt::optional::maybe_void(
						fcppt::cast::dynamic<
							sge::renderer::event::render const
						>(
							_event
						),
						[
							&draw
						](
							fcppt::reference<
								sge::renderer::event::render const
							>
						)
						{
							draw();
						}
					);
				}
			}
		);
}
catch(
	fcppt::exception const &_error
)
{
	awl::show_error(
		_error.string()
	);

	return
		awl::main::exit_failure();
}
catch(
	std::exception const &_error
)
{
	awl::show_error_narrow(
		_error.what()
	);

	return
		awl::main::exit_failure();
}
Ejemplo n.º 4
0
awl::main::exit_code const
example_main(
	awl::main::function_context const &
)
try
{
	sge::systems::instance<
		brigand::list<
			sge::systems::with_window,
			sge::systems::with_renderer<
				sge::systems::renderer_caps::ffp
			>,
			sge::systems::with_input,
			sge::systems::with_image2d
		>
	> const sys(
		sge::systems::make_list
		(
			sge::systems::window(
				sge::systems::window_source(
					sge::systems::original_window(
						sge::window::title(
							FCPPT_TEXT("sge cg point sprites test")
						)
					)
				)
			)
		)
		(
			sge::systems::renderer(
				sge::renderer::pixel_format::object(
					sge::renderer::pixel_format::color::depth32,
					sge::renderer::pixel_format::depth_stencil::off,
					sge::renderer::pixel_format::optional_multi_samples(),
					sge::renderer::pixel_format::srgb::no
				),
				sge::renderer::display_mode::parameters(
					sge::renderer::display_mode::vsync::on,
					sge::renderer::display_mode::optional_object()
				),
				sge::viewport::optional_resize_callback{
					sge::viewport::fill_on_resize()
				}
			)
		)
		(
			sge::systems::image2d(
				sge::media::optional_extension_set(
					sge::media::extension_set{
						sge::media::extension(
							FCPPT_TEXT("png")
						)
					}
				)
			)
		)
		(
			sge::systems::input(
				sge::systems::cursor_option_field::null()
			)
		)
	);

	typedef
	sge::renderer::vf::pos<
		float,
		3
	>
	pos3_type;

	typedef
	sge::renderer::vf::texpos<
		float,
		2,
		sge::renderer::vf::index<
			0u
		>
	>
	texpos_type;

	typedef
	sge::renderer::vf::extra<
		sge::renderer::vf::vector<
			float,
			1u
		>,
		sge::renderer::vf::index<
			0u
		>
	>
	point_size_type;

	typedef
	sge::renderer::vf::part<
		brigand::list<
			pos3_type,
			texpos_type,
			point_size_type
		>
	>
	format_part;

	typedef
	sge::renderer::vf::format<
		brigand::list<
			format_part
		>
	>
	format;

	sge::renderer::vertex::declaration_unique_ptr const vertex_declaration(
		sys.renderer_device_core().create_vertex_declaration(
			sge::renderer::vertex::declaration_parameters(
				sge::renderer::vf::dynamic::make_format<
					format
				>()
			)
		)
	);

	sge::cg::context::object const cg_context;

	sge::cg::profile::object const vertex_profile(
		sys.renderer_device_core().create_cg_profile(
			sge::cg::profile::shader_type::vertex
		)
	);

	sge::cg::string const vertex_shader_source(
		"struct vertex_outputs\n"
		"{\n"
		"	float2 position : POSITION;\n"
		"	float point_size : PSIZE;\n"
		"	float2 external_texpos : COLOR0;\n"
		"};\n"
		"vertex_outputs\n"
		"vertex_main(\n"
		"	float2 position : POSITION,\n"
		"	float2 texpos : TEXCOORD0,\n"
		"	float point_size : $0$\n"
		")\n"
		"{\n"
		"	vertex_outputs outs;\n"
		"	outs.position = float4(position,0.0,1.0);\n"
		"	outs.point_size = point_size;\n"
		"	outs.external_texpos = texpos;\n"
		"	return outs;\n"
		"}\n"
	);

	sge::cg::string const pixel_shader_source(
		"float4\n"
		"pixel_main(\n"
		"	float2 external_texpos : COLOR0,\n"
		"	float2 texCoord : TEXCOORD0,\n"
		"	uniform sampler2D decal : TEX0\n"
		") : COLOR\n"
		"{\n"
		"	return tex2D(decal,external_texpos.xy + texCoord.xy / 2.0);\n"
		"}\n"
	);

	sge::cg::program::object vertex_program(
		sge::cg::program::from_string_parameters(
			cg_context,
			sge::cg::program::source_type::text,
			vertex_profile,
			sys.renderer_device_core().transform_cg_vertex_program(
				*vertex_declaration,
				sge::cg::program::source(
					vertex_shader_source
				)
			),
			sge::cg::program::main_function(
				"vertex_main"
			),
			sys.renderer_device_core().cg_compile_options(
				cg_context,
				vertex_profile
			)
		)
	);

	sge::renderer::cg::loaded_program_unique_ptr const loaded_vertex_program(
		sys.renderer_device_core().load_cg_program(
			vertex_program
		)
	);

	sge::cg::profile::object const pixel_profile(
		sys.renderer_device_core().create_cg_profile(
			sge::cg::profile::shader_type::pixel
		)
	);

	sge::cg::program::object pixel_program(
		sge::cg::program::from_string_parameters(
			cg_context,
			sge::cg::program::source_type::text,
			pixel_profile,
			sge::cg::program::source(
				pixel_shader_source
			),
			sge::cg::program::main_function(
				"pixel_main"
			),
			sys.renderer_device_core().cg_compile_options(
				cg_context,
				pixel_profile
			)
		)
	);

	sge::renderer::cg::loaded_program_unique_ptr const loaded_pixel_program(
		sys.renderer_device_core().load_cg_program(
			pixel_program
		)
	);

	sge::renderer::vertex::buffer_unique_ptr const vertex_buffer(
		sys.renderer_device_core().create_vertex_buffer(
			sge::renderer::vertex::buffer_parameters(
				*vertex_declaration,
				sge::renderer::vf::dynamic::make_part_index<
					format,
					format_part
				>(),
				sge::renderer::vertex::count(
					1u
				),
				sge::renderer::resource_flags_field::null()
			)
		)
	);

	{
		sge::renderer::vertex::scoped_lock const vblock(
			*vertex_buffer,
			sge::renderer::lock_mode::writeonly
		);

		typedef
		sge::renderer::vf::view<
			format_part
		>
		vertex_view;

		vertex_view const vertices(
			vblock.value()
		);

		vertex_view::iterator vb_it(
			vertices.begin()
		);

		typedef
		pos3_type::packed_type
		pos3;

		typedef
		texpos_type::packed_type texpos;

		typedef
		point_size_type::packed_type
		point_size;


		(*vb_it).set<
			pos3_type
		>(
			pos3(
				0.f,
				0.f,
				0.f
			)
		);

		(*vb_it).set<
			texpos_type
		>(
			texpos(
				0.5f,
				0.5f
			)
		);

		(*vb_it).set<
			point_size_type
		>(
			point_size(
				200.0f
			)
		);
	}

	sge::renderer::texture::planar_unique_ptr const texture(
		sge::renderer::texture::create_planar_from_path(
			sge::config::media_path()
			/ FCPPT_TEXT("images")
			/ FCPPT_TEXT("uvtestgrid.png"),
			sys.renderer_device_core(),
			sys.image_system(),
			sge::renderer::texture::mipmap::off(),
			sge::renderer::resource_flags_field::null(),
			sge::renderer::texture::emulate_srgb_from_caps(
				sys.renderer_device_ffp().caps()
			)
		)
	);

	sge::renderer::cg::loaded_texture_unique_ptr const loaded_texture(
		sys.renderer_device_core().load_cg_texture(
			pixel_program.parameter(
				"decal"
			).object(),
			*texture
		)
	);

	sge::renderer::state::ffp::misc::object_unique_ptr const misc_state(
		sys.renderer_device_ffp().create_misc_state(
			sge::renderer::state::ffp::misc::parameters(
				sge::renderer::state::ffp::misc::enable_point_sprites(
					true
				),
				sge::renderer::state::ffp::misc::local_viewer(
					false
				),
				sge::renderer::state::ffp::misc::normalize_normals(
					false
				)
			)
		)
	);

	auto const draw(
		[
			&loaded_pixel_program,
			&loaded_texture,
			&loaded_vertex_program,
			&misc_state,
			&sys,
			&vertex_buffer,
			&vertex_declaration
		]{
			sge::renderer::context::scoped_ffp const scoped_block(
				sys.renderer_device_ffp(),
				sys.renderer_device_ffp().onscreen_target()
			);

			scoped_block.get().clear(
				sge::renderer::clear::parameters()
				.back_buffer(
					sge::image::color::any::object{
						sge::image::color::predef::blue()
					}
				)
			);

			sge::renderer::state::ffp::misc::scoped const scoped_misc(
				scoped_block.get(),
				*misc_state
			);

			sge::renderer::vertex::scoped_declaration_and_buffers const vb_context(
				scoped_block.get(),
				*vertex_declaration,
				sge::renderer::vertex::const_buffer_ref_container{
					fcppt::make_cref(
						*vertex_buffer
					)
				}
			);

			sge::renderer::cg::scoped_program const scoped_vertex_program(
				scoped_block.get(),
				*loaded_vertex_program
			);

			sge::renderer::cg::scoped_program const scoped_pixel_program(
				scoped_block.get(),
				*loaded_pixel_program
			);

			sge::renderer::cg::scoped_texture const scoped_texture(
				scoped_block.get(),
				*loaded_texture
			);

			scoped_block.get().render_nonindexed(
				sge::renderer::vertex::first(
					0u
				),
				sge::renderer::vertex::count{
					vertex_buffer->linear_size()
				},
				sge::renderer::primitive_type::point_list
			);
		}
	);

	return
		sge::window::loop(
			sys.window_system(),
			sge::window::loop_function{
				[
					&sys,
					&draw
				](
					awl::event::base const &_event
				)
				{
					sge::systems::quit_on_escape(
						sys,
						_event
					);

					fcppt::optional::maybe_void(
						fcppt::cast::dynamic<
							sge::renderer::event::render const
						>(
							_event
						),
						[
							&draw
						](
							fcppt::reference<
								sge::renderer::event::render const
							>
						)
						{
							draw();
						}
					);
				}
			}
		);
}
catch(
	fcppt::exception const &_error
)
{
	awl::show_error(
		_error.string()
	);

	return
		awl::main::exit_failure();
}
catch(
	std::exception const &_error
)
{
	awl::show_error_narrow(
		_error.what()
	);

	return
		awl::main::exit_failure();
}