// 7.InlineGeometryScene // 全内置几何体场景 #include"VulkanAppFramework.h" #include #include #include #include #include using namespace hgl; using namespace hgl::graph; constexpr uint32_t SCREEN_WIDTH=1280; constexpr uint32_t SCREEN_HEIGHT=720; class TestApp:public CameraAppFramework { Color4f color; private: SceneNode render_root; RenderList render_list; vulkan::Material * material =nullptr; vulkan::MaterialInstance * material_instance =nullptr; vulkan::PipelineData * pipeline_data =nullptr; vulkan::Pipeline * pipeline_line =nullptr; vulkan::Pipeline * pipeline_solid =nullptr; vulkan::Buffer * ubo_color =nullptr; vulkan::Renderable *ro_plane_grid, *ro_cube, *ro_sphere, *ro_dome, *ro_torus, *ro_cylinder, *ro_cone; private: bool InitMaterial() { material=db->CreateMaterial(OS_TEXT("res/material/VertexColor3D")); if(!material)return(false); material_instance=db->CreateMaterialInstance(material); if(!material_instance)return(false); pipeline_data=vulkan::GetPipelineData(vulkan::InlinePipeline::Solid3D); if(!pipeline_data)return(false); pipeline_line=CreatePipeline(material,pipeline_data,Prim::Lines); if(!pipeline_line)return(false); pipeline_solid=CreatePipeline(material,pipeline_data,Prim::Triangles); if(!pipeline_solid)return(false); return(true); } void CreateRenderObject() { { struct PlaneGridCreateInfo pgci; pgci.coord[0].Set(-100,-100,0); pgci.coord[1].Set( 100,-100,0); pgci.coord[2].Set( 100, 100,0); pgci.coord[3].Set(-100, 100,0); pgci.step.u=20; pgci.step.v=20; pgci.side_step.u=10; pgci.side_step.v=10; pgci.color.Set(0.5,0,0,1); pgci.side_color.Set(1,0,0,1); ro_plane_grid=CreateRenderablePlaneGrid(db,material,&pgci); } { struct CubeCreateInfo cci; cci.has_color=true; cci.color.Set(1,1,1,1); ro_cube=CreateRenderableCube(db,material,&cci); } { ro_sphere=CreateRenderableSphere(db,material,16); } { DomeCreateInfo dci; dci.radius=100; dci.numberSlices=32; ro_dome=CreateRenderableDome(db,material,&dci); } { TorusCreateInfo tci; tci.innerRadius=50; tci.outerRadius=70; tci.numberSlices=32; tci.numberStacks=16; ro_torus=CreateRenderableTorus(db,material,&tci); } { CylinderCreateInfo cci; cci.halfExtend=10; cci.radius=10; cci.numberSlices=16; ro_cylinder=CreateRenderableCylinder(db,material,&cci); } { ConeCreateInfo cci; cci.halfExtend=10; cci.radius=10; cci.numberSlices=16; cci.numberStacks=1; ro_cone=CreateRenderableCone(db,material,&cci); } } bool InitUBO() { color.Set(1,1,1,1); ubo_color=device->CreateUBO(sizeof(Vector4f),&color); db->Add(ubo_color); material_instance->BindUBO("color_material",ubo_color); if(!material_instance->BindUBO("world",GetCameraMatrixBuffer())) return(false); material_instance->Update(); return(true); } void Add(vulkan::Renderable *r,vulkan::Pipeline *pl) { auto ri=db->CreateRenderableInstance(r,material_instance,pl); render_root.Add(ri); } void Add(vulkan::Renderable *r,vulkan::Pipeline *pl,const Matrix4f &mat) { auto ri=db->CreateRenderableInstance(r,material_instance,pl); render_root.Add(ri,mat); } bool InitScene() { Add(ro_plane_grid,pipeline_line); // Add(ro_dome,pipeline_solid); Add(ro_torus ,pipeline_solid); Add(ro_cube ,pipeline_solid,translate(-10, 0, 5)*scale(10,10,10)); Add(ro_sphere ,pipeline_solid,translate( 10, 0, 5)*scale(10,10,10)); Add(ro_cylinder ,pipeline_solid,translate( 0, 16, 0)); Add(ro_cone ,pipeline_solid,translate( 0,-16, 0)); render_root.RefreshMatrix(); render_root.ExpendToList(&render_list); return(true); } public: bool Init() { if(!CameraAppFramework::Init(SCREEN_WIDTH,SCREEN_HEIGHT)) return(false); if(!InitMaterial()) return(false); if(!InitUBO()) return(false); CreateRenderObject(); if(!InitScene()) return(false); return(true); } void BuildCommandBuffer(uint32_t index) override { render_root.RefreshMatrix(); render_list.Clear(); render_root.ExpendToList(&render_list); VulkanApplicationFramework::BuildCommandBuffer(index,&render_list); } };//class TestApp:public CameraAppFramework int main(int,char **) { TestApp app; if(!app.Init()) return(-1); while(app.Run()); return 0; }