#include"VulkanAppFramework.h" #include #include #include using namespace hgl; using namespace hgl::graph; constexpr uint32_t SCREEN_WIDTH=1280; constexpr uint32_t SCREEN_HEIGHT=720; constexpr uint32_t VERTEX_COUNT=4; constexpr float position_data[VERTEX_COUNT][2]= { {SCREEN_WIDTH*0.5, SCREEN_HEIGHT*0.25}, {SCREEN_WIDTH*0.75, SCREEN_HEIGHT*0.75}, {SCREEN_WIDTH*0.25, SCREEN_HEIGHT*0.75}, {SCREEN_WIDTH*0.5, SCREEN_HEIGHT*0.25}, }; static Vector4f color(1,1,1,1); struct Line2DConfig { float width=20.0f; float border=5.0f; }; static Line2DConfig line_2d_config; class TestApp:public VulkanApplicationFramework { private: Camera cam; MaterialInstance * material_instance =nullptr; Mesh * render_obj =nullptr; DeviceBuffer * ubo_camera_info =nullptr; DeviceBuffer * ubo_color_material =nullptr; DeviceBuffer * ubo_line_config =nullptr; Pipeline * pipeline =nullptr; private: bool InitMaterial() { material_instance=db->CreateMaterialInstance(OS_TEXT("res/material/Line2D")); if(!material_instance) return(false); // pipeline=db->CreatePipeline(material_instance,sc_render_target,OS_TEXT("res/pipeline/solid2d")); //pipeline=CreatePipeline(material_instance,OS_TEXT("res/pipeline/alpha2d"),PrimitiveType::LineStrip); //等同上一行,为Framework重载,默认使用swapchain的render target pipeline=CreatePipeline(material_instance,InlinePipeline::Alpha2D,PrimitiveType::LineStrip); //等同上一行,为Framework重载,默认使用swapchain的render target if(!pipeline) return(false); return(true); } DeviceBuffer *CreateUBO(const AnsiString &name,const VkDeviceSize size,void *data) { DeviceBuffer *ubo=db->CreateUBO(size,data); if(!ubo) return(nullptr); return ubo; } bool InitUBO() { const VkExtent2D extent=sc_render_target->GetExtent(); cam.width=extent.width; cam.height=extent.height; cam.RefreshCameraInfo(); { MaterialParameters *mp_global=material_instance->GetMP(DescriptorSetType::Global); if(!mp_global) return(false); ubo_camera_info =db->CreateUBO(sizeof(CameraInfo), &cam.info); mp_global->BindUBO("g_camera",ubo_camera_info); mp_global->Update(); } { MaterialParameters *mp_value=material_instance->GetMP(DescriptorSetType::Value); if(!mp_value) return(false); ubo_color_material =db->CreateUBO(sizeof(Vector4f), &color); ubo_line_config =db->CreateUBO(sizeof(Line2DConfig), &line_2d_config); mp_value->BindUBO("color_material",ubo_color_material); mp_value->BindUBO("line2d_config",ubo_line_config); mp_value->Update(); } return(true); } bool InitVBO() { Primitive *primitive=db->CreatePrimitive(VERTEX_COUNT); if(!primitive)return(false); if(!primitive->Set(VAN::Position, db->CreateVAB(VF_V2F,VERTEX_COUNT,position_data)))return(false); render_obj=db->CreateRenderable(primitive,material_instance,pipeline); return(true); } public: bool Init() { if(!VulkanApplicationFramework::Init(SCREEN_WIDTH,SCREEN_HEIGHT)) return(false); if(!InitMaterial()) return(false); if(!InitUBO()) return(false); if(!InitVBO()) return(false); BuildCommandBuffer(render_obj); return(true); } void Resize(uint w,uint h)override { cam.width=w; cam.height=h; cam.RefreshCameraInfo(); ubo_camera_info->Write(&cam.info); BuildCommandBuffer(render_obj); } };//class TestApp:public VulkanApplicationFramework int main(int,char **) { TestApp app; if(!app.Init()) return(-1); while(app.Run()); return 0; }