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merge into: hyzboy:devel_35_SceneOrient
Branches Tags
hyzboy:devel_40_World hyzboy:devel_39_Component hyzboy:devel_39_Camera hyzboy:devel_38_GraphManager hyzboy:devel_36_PickGizmo hyzboy:devel_37_RenderFramework hyzboy:devel_35_SceneOrient hyzboy:devel_34_Gizmo hyzboy:devel_33_ShaderIOVariable hyzboy:devel_32_Billboard hyzboy:devel_31_VDMMergeRender hyzboy:devel_30_ResumeAssignBuffer hyzboy:devel_29_BigVBO hyzboy:Resume_L2W_in_VertexInput hyzboy:devel_28_Gizmo_Move hyzboy:devel_27_Default3DMaterial hyzboy:new_RenderList hyzboy:devel_26_Texture2DArray hyzboy:devel_25_MaterialInstanceArray_in_UBO hyzboy:master hyzboy:devel_24_L2WArray_in_UBO hyzboy:optimize_pipeline_cache hyzboy:debug_util hyzboy:devel_23_instance
...
pull from: hyzboy:devel_38_GraphManager
Branches Tags
hyzboy:devel_40_World hyzboy:devel_39_Component hyzboy:devel_39_Camera hyzboy:devel_38_GraphManager hyzboy:devel_36_PickGizmo hyzboy:devel_37_RenderFramework hyzboy:devel_35_SceneOrient hyzboy:devel_34_Gizmo hyzboy:devel_33_ShaderIOVariable hyzboy:devel_32_Billboard hyzboy:devel_31_VDMMergeRender hyzboy:devel_30_ResumeAssignBuffer hyzboy:devel_29_BigVBO hyzboy:Resume_L2W_in_VertexInput hyzboy:devel_28_Gizmo_Move hyzboy:devel_27_Default3DMaterial hyzboy:new_RenderList hyzboy:devel_26_Texture2DArray hyzboy:devel_25_MaterialInstanceArray_in_UBO hyzboy:master hyzboy:devel_24_L2WArray_in_UBO hyzboy:optimize_pipeline_cache hyzboy:debug_util hyzboy:devel_23_instance

93 Commits
devel_35_S ... devel_38_G

Author SHA1 Message Date
hyzboy
a4cc34d03b few 2025-03-17 00:49:56 +08:00
hyzboy
b77ede95e5 Added constexpr values 2025-03-14 21:44:09 +08:00
hyzboy
be3a8a2b00 renew auto_merge_material_instance.cpp 2025-03-14 00:17:54 +08:00
hyzboy
b6a92e8cd3 Added WorkObject::CreatePrimitive function. 2025-03-14 00:17:19 +08:00
hyzboy
7306581616 fixed a bug at vdm compare in PrimitiveDataBuffer 2025-03-14 00:16:53 +08:00
hyzboy
2e2f306b6b RenderList used AutoDelete<>. 2025-03-13 23:56:43 +08:00
hyzboy
cf81e7bcff Fixed a but that compare PrimitiveDataBuffer wrong. 2025-03-13 23:56:22 +08:00
hyzboy
68089e13bc port auto_instance to new WorkObject/RenderFramework 2025-03-13 23:41:51 +08:00
hyzboy
eee00f3c8c Added CreateRenderList() in RenderFramework 2025-03-13 23:37:10 +08:00
hyzboy
52b6e88522 Added Tick(double) in WorkObject 2025-03-13 23:36:47 +08:00
hyzboy
383a568daa adjusted order of codes in draw_triangle_use_UBO.cpp 2025-03-13 01:19:29 +08:00
hyzboy
ce095f97f2 Fixed renew ubo bug. 2025-03-12 02:08:20 +08:00
hyzboy
774f106738 example 0/1 run OK on newly RenderTarget 2025-03-12 01:25:49 +08:00
hyzboy
0706f27354 slit RenderTarget, created VKRenderTargetData.h/.cpp, VKRenderTargetSingle.h/.cpp, VKRenderTargetMultiFrame.h, VKRenderTargetSwapchain.h 2025-03-11 23:51:05 +08:00
hyzboy
62e9d2f904 rewrite CrateUBO 2025-03-06 12:56:16 +08:00
hyzboy
d5df06dca3 Added Resize/event transmit 2025-03-06 01:24:25 +08:00
hyzboy
9c3e16032e improved SwapchainModule::GetSwapchainSize(). 2025-03-06 01:23:39 +08:00
hyzboy
55765cf112 Added DeviceBufferMap, first used in ViewportInfo 2025-03-06 01:22:35 +08:00
hyzboy
c5e9f151fc Put the Viewport in a RenderTarget and pass it after RenderCmdBuffer::Begin. auto bind ViewportInfo to any material. 2025-03-05 01:01:48 +08:00
hyzboy
2f1ccda442 removed mtl/UniformBuffer.h 2025-03-04 22:44:44 +08:00
hyzboy
f88f6378b7 Added .editorconfig 2025-03-04 22:44:10 +08:00
hyzboy
b63edb2f89 renamed to ShaderBufferSource from ShaderBuffer 2025-03-04 22:41:07 +08:00
hyzboy
21c7f36d03 update PipelineCompiler 2025-02-20 02:40:54 +08:00
hyzboy
54d8726145 adjusted order in CMakeLists.txt 2025-02-12 23:24:08 +08:00
hyzboy
9f0625ed4e fixed a bug that crash after window resize. because WorkObject::cur_render_target don't reset after window resize. 2025-02-05 23:36:53 +08:00
hyzboy
e5a46f3ee8 Added "RenderFramework *" in GraphModule and IRenderTarget 2025-02-05 22:44:58 +08:00
hyzboy
7ec1c095cc [WIP] preparing UBO/SSBO<> 2025-02-01 16:32:08 +08:00
hyzboy
3807d9fcbf Fixed draw_triangle_in_NDC.cpp,can run. 2025-02-01 15:40:35 +08:00
hyzboy
0d67993326 added WorkObject::CreateMaterialInstance 2025-01-29 18:10:37 +08:00
hyzboy
052e2c673a new WorkObject Construct function. 2025-01-29 17:42:06 +08:00
hyzboy
7c745df910 Added RunFramework() 2025-01-29 16:30:00 +08:00
hyzboy
a03770fd00 Added WorkObject::CreateRenderable(...) 2025-01-28 22:20:48 +08:00
hyzboy
3c2f7ad705 added render_pass and CreatePipeline at WorkObject. optimized rf_test.cpp 2025-01-28 21:04:48 +08:00
hyzboy
93e38fc14f created ULRE.Work contains WorkObject/WorkManager 2025-01-28 20:48:43 +08:00
hyzboy
dd0cf9bf51 [Milestone] new RenderWorkObject, rf_test run OK! 2025-01-28 20:03:44 +08:00
hyzboy
dcefb261ad Added Render(Renderable *) in RenderCmdBuffer 2025-01-27 05:28:21 +08:00
hyzboy
d63af2d8de Added Vulkan version check at to print vulkan physical device properties. 2025-01-27 04:08:35 +08:00
hyzboy
fda6001451 Added LightCullMode.h 2025-01-27 00:26:39 +08:00
hyzboy
f0a582271e optimized SwapchainModule and SwapchainRenderTarget 2025-01-26 23:47:04 +08:00
hyzboy
74a5847bbc refactored RenderTarget 2025-01-26 23:22:25 +08:00
hyzboy
2576675265 removed RenderPass params at RTSwapchain's construct function 2025-01-26 13:36:15 +08:00
hyzboy
ffaa038f99 Use RenderPass * instead of VkRenderPass in Framebuffer 2025-01-26 12:36:23 +08:00
hyzboy
768ebde879 optimized SwapchainModule::BeginFrame/EndFrame 2025-01-26 12:13:51 +08:00
hyzboy
af03f2967c RenderCmdBUffer::BindFramebuffer removed RenderPass param. 2025-01-26 12:13:03 +08:00
hyzboy
e24286a87f removed render_pass from RenderTarget, use RenderTarget::fbo->render_pass 2025-01-26 12:12:13 +08:00
hyzboy
99f833ef42 RenderPass add GetVkRenderPass() 2025-01-26 12:06:05 +08:00
hyzboy
0735e783e6 reduced codes of rf_test.cpp 2025-01-26 10:32:53 +08:00
hyzboy
053e579071 refactor WorkObject/WorkManager 2025-01-26 09:46:59 +08:00
hyzboy
6e12a411b1 added SwapchainModule::GetRenderCmdBuffer() 2025-01-26 00:15:54 +08:00
hyzboy
022cc4a2f3 removed BeginFrame/EndFrame/Run/RunFrame of RenderFramework 2025-01-25 23:12:31 +08:00
hyzboy
906aba2459 use shorter name of manager/modules.... 2025-01-25 22:31:48 +08:00
hyzboy
b47b096039 optimized image_count of Swapchain 2025-01-25 21:17:00 +08:00
hyzboy
63dac1ef74 moved SwapchainImage's Destruct function to .cpp 2025-01-25 21:16:25 +08:00
hyzboy
0a072d846b I moved a RenderPass to SwapchainModule from SwapchainImage; RenderPass isn't recreated after recreating the swapchain. 2025-01-25 20:27:26 +08:00
hyzboy
7326765057 WorkObject inherit TickObject. 2025-01-25 20:07:52 +08:00
hyzboy
a569d08269 optimized WorkManager, fixed crash after close window. 2025-01-25 20:01:37 +08:00
hyzboy
6fdf0e1fbd removed old codes from rf_test.cpp 2025-01-25 17:30:52 +08:00
hyzboy
2e53b48fff [BIG MILESTONE] render framework first test ok! can draw! 2025-01-25 17:17:55 +08:00
hyzboy
aafdbdd4ea reduced codes of rf_test.cpp 2025-01-25 15:25:29 +08:00
hyzboy
82a3ec4922 [WIP] added Join() at WorkObject 2025-01-25 15:23:36 +08:00
hyzboy
6141dbf4d5 removed RenderFramework::device_render_pass 2025-01-25 01:42:50 +08:00
hyzboy
c8adc9af24 Moved render_cmd_buffer to SwapchainImage 2025-01-25 01:41:00 +08:00
hyzboy
79b0b2ef76 support Vulkan 1.4 caps 2025-01-25 01:40:08 +08:00
hyzboy
ab36f67412 Added DebugUtils::SetTexture() 2025-01-25 01:39:32 +08:00
hyzboy
487d3c4978 added WorkObject.h 2025-01-24 13:23:57 +08:00
hyzboy
0a2862a051 Added Begin in SwapchainModule::Use() 2025-01-19 23:22:26 +08:00
hyzboy
10fbcfef14 RenderFramework::RunFrame/Run 2025-01-19 19:42:38 +08:00
hyzboy
414142283b moved OnResize to GraphModule from RenderModule 2025-01-19 19:41:57 +08:00
hyzboy
96c3718b2a remove about swapchain from GPUDevice class. 2025-01-19 19:06:32 +08:00
hyzboy
014d783e73 [WIP,can't RUN] recreated TextureManager/RenderTargetManager/SwapchainModule 2025-01-19 18:13:06 +08:00
hyzboy
ff8222c256 moved device_render_pass to RenderFramework from GPUDevice. 2025-01-18 20:28:14 +08:00
hyzboy
911afc06f6 preparing newly GraphModule/RenderModule/RenderPassManager/RenderFramework 2025-01-16 02:10:03 +08:00
hyzboy
bd0a3d8be1 to support newly String<>/IDName/Compare 2025-01-15 02:42:04 +08:00
hyzboy
d810540b81 Merge branch 'devel_36_PickGizmo' of http://www.hyzgame.com:3000/hyzboy/ULRE into devel_36_PickGizmo 2024-11-21 01:30:50 +08:00
hyzboy
3259f1af4c use SortedSet instead of SortedSets 2024-11-21 01:30:42 +08:00
hyzboy
62d370e508 renamed to SortedSet from SortedSets 2024-11-18 13:19:11 +08:00
hyzboy
2c67990daa little and unimportant update 2024-10-13 00:15:45 +08:00
hyzboy
620d05c6ff added shadow attributes in StaticMesh 2024-10-10 01:59:24 +08:00
hyzboy
d1f1124302 updated SceneNodeAttributes.h 2024-10-10 01:59:05 +08:00
hyzboy
e9d5b369bf Added ShadowPolicy.h 2024-10-10 01:58:47 +08:00
hyzboy
71c0c7e627 Added SceneNodeAttributes.h 2024-10-10 01:23:12 +08:00
hyzboy
2f34d556e4 renamed to ChildNode instead of SubNode 2024-10-06 16:49:08 +08:00
hyzboy
b9fbab56f1 update codes for support new SceneNode 2024-10-06 14:51:38 +08:00
hyzboy
4614562929 optimized SceneNode class. 2024-10-06 02:30:59 +08:00
hyzboy
9450d92784 use Contains instead of IsMember/IsExist 2024-10-05 22:51:27 +08:00
hyzboy
d7f7a7d095 [WIP] preparing SceneManager 2024-09-06 01:04:28 +08:00
hyzboy
59fc27c864 layout codes of GizmoResource.hj 2024-09-02 23:07:20 +08:00
hyzboy
bbbd8b06c2 move the white_torus to GizmoRotate 2024-09-02 00:32:30 +08:00
hyzboy
efd9a447fb use TransformFaceToCamera in GizmoTest.cpp 2024-08-31 15:55:58 +08:00
hyzboy
5e8957b78b TransformFaceToCamera class is finished. 2024-08-31 15:46:11 +08:00
hyzboy
99264b5b0a Split SceneMatrix to standalone files 2024-08-31 00:10:57 +08:00
hyzboy
8ebbd674b2 Moved WorldPosition to SceneMatrix 2024-08-31 00:04:20 +08:00
hyzboy
72ceffeda2 Added UpdateMaterialInstance method. but no any test. 2024-08-30 03:36:01 +08:00
161 changed files with 4267 additions and 2389 deletions
Expand all files Collapse all files

8
.editorconfig Normal file
View File

@@ -0,0 +1,8 @@
root = true
[*]
indent_style = space
indent_size = 4
insert_final_newline = true
trim_trailing_whitespace = true

2
CMAssetsManage

Submodule CMAssetsManage updated: 4b880eb50f...0fae462338

2
CMCMakeModule

Submodule CMCMakeModule updated: 17e263bf44...737fe5c80d

2
CMCore

Submodule CMCore updated: 0ac2a9431a...b78d31d8a0

2
CMPlatform

Submodule CMPlatform updated: 103b0d845d...67e8e95665

2
CMSceneGraph

Submodule CMSceneGraph updated: 079becd267...f74d7045fa

2
CMUtil

Submodule CMUtil updated: 1e121c1b3e...57ff3a70c9

24
CMakeLists.txt
View File

@@ -8,21 +8,22 @@ set(CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/CMCMakeModule)
set(ULRE_3RDPTY_ROOT_PATH ${CMAKE_CURRENT_SOURCE_DIR}/3rdpty)
include_directories(${ULRE_3RDPTY_ROOT_PATH}/NvTriStrip)
include_directories(${CMAKE_CURRENT_SOURCE_DIR}/inc)
SET(ROOT_INCLUDE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/inc)
SET(ULRE_RUNTIME_PATH ${CMAKE_CURRENT_SOURCE_DIR})
include(math)
include(vulkan)
include(use_cm_module)
use_cm_module(Core)
use_cm_module(Util)
use_cm_module(Platform)
use_cm_module(AssetsManage)
use_cm_module(SceneGraph)
SET(ULRE CMCore
CMPlatform
CMAssetsManage
CMSceneGraph
CMUtil
ULRE.Work
ULRE.Util
ULRE.ShaderGen
ULRE.SceneGraph
@@ -30,12 +31,11 @@ SET(ULRE CMCore
${RENDER_LIBRARY}
${Vulkan_LIBRARIES})
include_directories(${ULRE_3RDPTY_ROOT_PATH}/NvTriStrip)
include_directories(${CMAKE_CURRENT_SOURCE_DIR}/inc)
SET(ROOT_INCLUDE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/inc)
SET(ULRE_RUNTIME_PATH ${CMAKE_CURRENT_SOURCE_DIR})
use_cm_module(Core)
use_cm_module(Util)
use_cm_module(Platform)
use_cm_module(AssetsManage)
use_cm_module(SceneGraph)
add_subdirectory(src)

4
example/Basic/BillboardTest.cpp
View File

@@ -120,7 +120,7 @@ private:
return(nullptr);
}
render_root.CreateSubNode(ri);
render_root.Add(new SceneNode(ri));
return ri;
}
@@ -163,7 +163,7 @@ private:
{
Add(prim_plane_grid,mi_plane_grid,pipeline_plane_grid);
render_root.CreateSubNode(ro_billboard);
render_root.Add(new SceneNode(ro_billboard));
camera->pos=Vector3f(32,32,32);
camera_control->SetTarget(Vector3f(0,0,0));

1
example/Basic/CMakeLists.txt
View File

@@ -10,6 +10,7 @@
set_property(TARGET ${name} PROPERTY FOLDER "ULRE/Example/Basic")
endmacro()
CreateProject(00_RenderFrameworkTest rf_test.cpp)
CreateProject(01_draw_triangle_in_NDC draw_triangle_in_NDC.cpp)
CreateProject(02_draw_triangle_use_UBO draw_triangle_use_UBO.cpp)
CreateProject(03_auto_instance auto_instance.cpp)

74
example/Basic/auto_instance.cpp
View File

@@ -1,19 +1,14 @@
// 该范例主要演示使用RenderList系统绘制多个三角形并利用RenderList进行排序以及自动合并进行Instance渲染
#include"VulkanAppFramework.h"
#include<hgl/WorkManager.h>
#include<hgl/math/Math.h>
#include<hgl/filesystem/FileSystem.h>
#include<hgl/graph/PrimitiveCreater.h>
#include<hgl/graph/VKVertexInputConfig.h>
#include<hgl/graph/mtl/Material2DCreateConfig.h>
#include<hgl/graph/RenderList.h>
using namespace hgl;
using namespace hgl::graph;
constexpr uint32_t SCREEN_WIDTH=1024;
constexpr uint32_t SCREEN_HEIGHT=1024;
constexpr uint32_t VERTEX_COUNT=3;
constexpr uint32_t TRIANGLE_NUMBER=12;
@@ -32,12 +27,15 @@ constexpr uint8 color_data[VERTEX_COUNT][4]=
{0,0,255,255}
};
class TestApp:public VulkanApplicationFramework
class TestApp:public WorkObject
{
Color4f clear_color =Color4f(0.2f,0.2f,0.2f,1.0f);
private:
AutoDelete<RenderList> render_list =nullptr;
SceneNode render_root;
RenderList * render_list =nullptr;
MaterialInstance * material_instance =nullptr;
Renderable * render_obj =nullptr;
@@ -49,7 +47,7 @@ private:
bool InitMaterial()
{
{
mtl::Material2DCreateConfig cfg(device->GetDeviceAttribute(),"VertexColor2D",Prim::Triangles);
mtl::Material2DCreateConfig cfg(GetDeviceAttribute(),"VertexColor2D",Prim::Triangles);
cfg.coordinate_system=CoordinateSystem2D::NDC;
cfg.local_to_world=true;
@@ -74,14 +72,11 @@ private:
bool InitVBO()
{
PrimitiveCreater rpc(device,material_instance->GetVIL());
rpc.Init("Triangle",VERTEX_COUNT);
if(!rpc.WriteVAB(VAN::Position, VF_V2F, position_data))return(false);
if(!rpc.WriteVAB(VAN::Color, VF_V4UN8, color_data ))return(false);
render_obj=db->CreateRenderable(&rpc,material_instance,pipeline);
render_obj=CreateRenderable("Triangle",VERTEX_COUNT,material_instance,pipeline,
{
{VAN::Position, VF_V2F, position_data},
{VAN::Color, VF_V4UN8, color_data }
});
if(!render_obj)
return(false);
@@ -91,10 +86,10 @@ private:
for(uint i=0;i<TRIANGLE_NUMBER;i++)
{
rad=deg2rad<double>((360/TRIANGLE_NUMBER)*i); //这里一定要加<float>或<float>否则结果用int保存会出现问题
rad=deg2rad<double>((360.0f/double(TRIANGLE_NUMBER))*i); //这里一定要加<float>或<float>否则结果用int保存会出现问题
mat=rotate(rad,Vector3f(0,0,1));
render_root.CreateSubNode(mat,render_obj);
render_root.Add(new SceneNode(mat,render_obj));
}
render_root.RefreshMatrix();
@@ -106,45 +101,28 @@ private:
public:
~TestApp()
TestApp(RenderFramework *rf):WorkObject(rf,rf->GetSwapchainRenderTarget())
{
SAFE_CLEAR(render_list);
}
bool Init()
{
if(!VulkanApplicationFramework::Init(SCREEN_WIDTH,SCREEN_HEIGHT))
return(false);
render_list=new RenderList(device);
render_list=rf->CreateRenderList();
if(!InitMaterial())
return(false);
return;
if(!InitVBO())
return(false);
BuildCommandBuffer(render_list);
return(true);
return;
}
void Resize(uint w,uint h)override
void Render(double delta_time,graph::RenderCmdBuffer *cmd)override
{
VulkanApplicationFramework::Resize(w,h);
cmd->SetClearColor(0,clear_color);
BuildCommandBuffer(render_list);
cmd->BeginRenderPass();
render_list->Render(cmd);
cmd->EndRenderPass();
}
};//class TestApp:public VulkanApplicationFramework
};//class TestApp:public WorkObject
int main(int,char **)
int os_main(int,os_char **)
{
TestApp app;
if(!app.Init())
return(-1);
while(app.Run());
return 0;
return RunFramework<TestApp>(OS_TEXT("AutoInstance"),1024,1024);
}

71
example/Basic/auto_merge_material_instance.cpp
View File

@@ -1,18 +1,14 @@
// 该范例主要演示使用一个材质下的不同材质实例传递颜色参数绘制三角形并依赖RenderList中的自动合并功能让同一材质下所有不同材质实例的对象一次渲染完成。
#include"VulkanAppFramework.h"
#include<hgl/WorkManager.h>
#include<hgl/math/Math.h>
#include<hgl/filesystem/FileSystem.h>
#include<hgl/graph/mtl/Material2DCreateConfig.h>
#include<hgl/graph/RenderList.h>
#include<hgl/color/Color.h>
using namespace hgl;
using namespace hgl::graph;
constexpr uint32_t SCREEN_WIDTH=1024;
constexpr uint32_t SCREEN_HEIGHT=1024;
constexpr uint32_t VERTEX_COUNT=3;
constexpr float position_data[VERTEX_COUNT*2]=
@@ -23,15 +19,19 @@ constexpr float position_data[VERTEX_COUNT*2]=
};
constexpr uint DRAW_OBJECT_COUNT=12;
constexpr double TRI_ROTATE_ANGLE=360.0f/DRAW_OBJECT_COUNT;
#define USE_MATERIAL_FILE true //是否使用材质文件
class TestApp:public VulkanApplicationFramework
class TestApp:public WorkObject
{
Color4f clear_color =Color4f(0.2f,0.2f,0.2f,1.0f);
private:
AutoDelete<RenderList> render_list =nullptr;
SceneNode render_root;
RenderList * render_list =nullptr;
Material * material =nullptr;
@@ -48,7 +48,7 @@ private:
bool InitMaterial()
{
{
mtl::Material2DCreateConfig cfg(device->GetDeviceAttribute(),"PureColor2D",Prim::Triangles);
mtl::Material2DCreateConfig cfg(GetDeviceAttribute(),"PureColor2D",Prim::Triangles);
cfg.coordinate_system=CoordinateSystem2D::NDC;
cfg.local_to_world=true;
@@ -83,20 +83,16 @@ private:
bool InitVBOAndRenderList()
{
PrimitiveCreater pc(device,material->GetDefaultVIL());
Primitive *prim=CreatePrimitive("Triangle",VERTEX_COUNT,material->GetDefaultVIL(),
{{VAN::Position, VF_V2F, position_data}});
if(!pc.Init("Triangle",VERTEX_COUNT))
return(false);
if(!pc.WriteVAB(VAN::Position, VF_V2F, position_data))
return(false);
Primitive *prim=pc.Create();
if(!prim)
return(false);
db->Add(prim);
Matrix4f mat;
for(uint i=0;i<DRAW_OBJECT_COUNT;i++)
{
render_obj[i].r=db->CreateRenderable(prim,render_obj[i].mi,pipeline);
@@ -104,7 +100,9 @@ private:
if(!render_obj[i].r)
return(false);
render_root.CreateSubNode(rotate(deg2rad<double>(double(360/DRAW_OBJECT_COUNT*i)),Vector3f(0,0,1)),render_obj[i].r);
mat=rotate(deg2rad<double>(TRI_ROTATE_ANGLE*i),AxisVector::Z);
render_root.Add(new SceneNode(mat,render_obj[i].r));
}
render_root.RefreshMatrix();
@@ -116,45 +114,28 @@ private:
public:
~TestApp()
TestApp(RenderFramework *rf):WorkObject(rf,rf->GetSwapchainRenderTarget())
{
SAFE_CLEAR(render_list);
}
bool Init()
{
if(!VulkanApplicationFramework::Init(SCREEN_WIDTH,SCREEN_HEIGHT))
return(false);
render_list=new RenderList(device);
render_list=rf->CreateRenderList();
if(!InitMaterial())
return(false);
return;
if(!InitVBOAndRenderList())
return(false);
BuildCommandBuffer(render_list);
return(true);
return;
}
void Resize(uint w,uint h)override
void Render(double delta_time,graph::RenderCmdBuffer *cmd)override
{
VulkanApplicationFramework::Resize(w,h);
cmd->SetClearColor(0,clear_color);
BuildCommandBuffer(render_list);
cmd->BeginRenderPass();
render_list->Render(cmd);
cmd->EndRenderPass();
}
};//class TestApp:public VulkanApplicationFramework
int main(int,char **)
int os_main(int,os_char **)
{
TestApp app;
if(!app.Init())
return(-1);
while(app.Run());
return 0;
return RunFramework<TestApp>(OS_TEXT("AutoInstance"),1024,1024);
}

69
example/Basic/draw_triangle_in_NDC.cpp
View File

@@ -1,10 +1,7 @@
// 该范例主要演示使用NDC坐标系直接绘制一个渐变色的三角形
#include"VulkanAppFramework.h"
#include<hgl/math/Math.h>
#include<hgl/WorkManager.h>
#include<hgl/math/HalfFloat.h>
#include<hgl/filesystem/FileSystem.h>
#include<hgl/graph/SceneInfo.h>
#include<hgl/graph/VKVertexInputConfig.h>
#include<hgl/graph/PrimitiveCreater.h>
#include<hgl/graph/mtl/Material2DCreateConfig.h>
@@ -42,7 +39,8 @@ constexpr VkFormat PositionFormat=VF_V2F;
#ifdef USE_UNORM8_COLOR
constexpr uint8 color_data[VERTEX_COUNT*4]=
{ 255,0,0,255,
{
255,0,0,255,
0,255,0,255,
0,0,255,255
};
@@ -50,7 +48,8 @@ constexpr uint8 color_data[VERTEX_COUNT*4]=
constexpr VkFormat ColorFormat=VF_V4UN8;
#else
constexpr float color_data[VERTEX_COUNT*4]=
{ 1,0,0,1,
{
1,0,0,1,
0,1,0,1,
0,0,1,1
};
@@ -58,10 +57,12 @@ constexpr float color_data[VERTEX_COUNT*4]=
constexpr VkFormat ColorFormat=VF_V4F;
#endif//USE_UNORM8_COLOR
class TestApp:public VulkanApplicationFramework
class TestApp:public WorkObject
{
private:
Color4f clear_color=Color4f(0.2f,0.2f,0.2f,1.0f);
#if defined(USE_HALF_FLOAT_POSITION)||defined(USE_UNORM8_COLOR)
VILConfig vil_config;
#endif
@@ -86,7 +87,7 @@ private:
bool InitAutoMaterial()
{
mtl::Material2DCreateConfig cfg(device->GetDeviceAttribute(),"VertexColor2d",Prim::Triangles);
mtl::Material2DCreateConfig cfg(GetDeviceAttribute(),"VertexColor2d",Prim::Triangles);
cfg.coordinate_system=CoordinateSystem2D::NDC;
cfg.local_to_world=false;
@@ -108,61 +109,47 @@ private:
bool InitVBO()
{
PrimitiveCreater rpc(device,material_instance->GetVIL());
rpc.Init("Triangle",VERTEX_COUNT);
#ifdef USE_HALF_FLOAT_POSITION
Float32toFloat16(position_data_hf,position_data_float,VERTEX_COUNT*2);
#endif//USE_HALF_FLOAT_POSITION
if(!rpc.WriteVAB(VAN::Position, PositionFormat, position_data))return(false);
if(!rpc.WriteVAB(VAN::Color, ColorFormat, color_data ))return(false);
render_obj=db->CreateRenderable(&rpc,material_instance,pipeline);
render_obj=CreateRenderable("Triangle",VERTEX_COUNT,material_instance,pipeline,
{
{VAN::Position,PositionFormat,position_data},
{VAN::Color, ColorFormat, color_data}
});
return(render_obj);
}
public:
bool Init()
TestApp(RenderFramework *rf):WorkObject(rf,rf->GetSwapchainRenderTarget())
{
if(!VulkanApplicationFramework::Init(SCREEN_WIDTH,SCREEN_HEIGHT))
return(false);
InitVIL();
if(!InitAutoMaterial())
return(false);
return;
if(!InitPipeline())
return(false);
return;
if(!InitVBO())
return(false);
if(!BuildCommandBuffer(render_obj))
return(false);
return(true);
return;
}
void Resize(uint w,uint h)override
void Tick(double)override{}
void Render(double delta_time,graph::RenderCmdBuffer *cmd)
{
VulkanApplicationFramework::Resize(w,h);
cmd->SetClearColor(0,clear_color);
BuildCommandBuffer(render_obj);
cmd->BeginRenderPass();
cmd->Render(render_obj);
cmd->EndRenderPass();
}
};//class TestApp:public VulkanApplicationFramework
};//class TestApp:public WorkObject
int main(int,char **)
int os_main(int,os_char **)
{
TestApp app;
if(!app.Init())
return(-1);
while(app.Run());
return 0;
return RunFramework<TestApp>(OS_TEXT("Draw triangle in NDC space"));
}

88
example/Basic/draw_triangle_use_UBO.cpp
View File

@@ -1,9 +1,6 @@
// 该范例主要演示使用2D坐系统直接绘制一个渐变色的三角形,使用UBO传递Viewport信息
#include"VulkanAppFramework.h"
#include<hgl/math/Math.h>
#include<hgl/filesystem/FileSystem.h>
#include<hgl/graph/SceneInfo.h>
#include<hgl/WorkManager.h>
#include<hgl/graph/VKVertexInputConfig.h>
#include<hgl/graph/PrimitiveCreater.h>
#include<hgl/graph/mtl/Material2DCreateConfig.h>
@@ -20,7 +17,7 @@ static float position_data_float[VERTEX_COUNT][2]=
{0.25, 0.75}
};
static uint16 position_data_u16[VERTEX_COUNT][2]={};
static int16 position_data[VERTEX_COUNT][2]={};
constexpr uint8 color_data[VERTEX_COUNT*4]=
{
@@ -29,12 +26,17 @@ constexpr uint8 color_data[VERTEX_COUNT*4]=
0,0,255,255
};
//#define USE_ZERO2ONE_COORD //使用左上角0,0右下角1,1的坐标系
constexpr VAType POSITION_SHADER_FORMAT =VAT_IVEC2;
constexpr VkFormat POSITION_DATA_FORMAT =VF_V2I16;
class TestApp:public VulkanApplicationFramework
constexpr VkFormat COLOR_DATA_FORMAT =VF_V4UN8;
class TestApp:public WorkObject
{
private:
Color4f clear_color =Color4f(0.2f,0.2f,0.2f,1.0f);
MaterialInstance * material_instance =nullptr;
Renderable * render_obj =nullptr;
@@ -44,23 +46,19 @@ private:
bool InitMaterial()
{
mtl::Material2DCreateConfig cfg(device->GetDeviceAttribute(),"VertexColor2D",Prim::Triangles);
mtl::Material2DCreateConfig cfg(GetDeviceAttribute(),"VertexColor2D",Prim::Triangles);
VILConfig vil_config;
#ifdef USE_ZERO2ONE_COORD
cfg.coordinate_system=CoordinateSystem2D::ZeroToOne;
#else
cfg.coordinate_system =CoordinateSystem2D::Ortho;
cfg.position_format =VAT_UVEC2; //这里指定shader中使用uvec2当做顶点输入格式
cfg.position_format = POSITION_SHADER_FORMAT; //这里指定shader中使用ivec2当做顶点输入格式
// ^
// + 这上下两种格式要配套,否则会出错
// v
vil_config.Add(VAN::Position,VF_V2U16); //这里指定VAB中使用RG16U当做顶点数据格式
#endif//USE_ZERO2ONE_COORD
vil_config.Add(VAN::Position, POSITION_DATA_FORMAT); //这里指定VAB中使用RG16I当做顶点数据格式
vil_config.Add(VAN::Color,VF_V4UN8); //这里指定VAB中使用RGBA8UNorm当做颜色数据格式
vil_config.Add(VAN::Color, COLOR_DATA_FORMAT); //这里指定VAB中使用RGBA8UNorm当做颜色数据格式
cfg.local_to_world=false;
@@ -79,58 +77,44 @@ private:
bool InitVBO()
{
PrimitiveCreater rpc(device,material_instance->GetVIL());
const auto ext=GetExtent2D();
rpc.Init("Triangle",VERTEX_COUNT);
for(uint i=0;i<VERTEX_COUNT;i++)
{
position_data[i][0]=position_data_float[i][0]*ext.width;
position_data[i][1]=position_data_float[i][1]*ext.height;
}
#ifdef USE_ZERO2ONE_COORD //使用0 to 1坐标系
if(!rpc.WriteVAB(VAN::Position, VF_V2F, position_data_float ))return(false);
#else //使用ortho坐标系
if(!rpc.WriteVAB(VAN::Position, VF_V2U16, position_data_u16 ))return(false);
#endif//USE_ZERO2ONE_COORD
if(!rpc.WriteVAB(VAN::Color, VF_V4UN8, color_data ))return(false);
render_obj=db->CreateRenderable(&rpc,material_instance,pipeline);
return(true);
render_obj=CreateRenderable("Triangle",VERTEX_COUNT,material_instance,pipeline,
{
{VAN::Position,POSITION_DATA_FORMAT,position_data},
{VAN::Color, COLOR_DATA_FORMAT, color_data}
});
return(render_obj);
}
public:
bool Init(uint w,uint h)
TestApp(RenderFramework *rf):WorkObject(rf,rf->GetSwapchainRenderTarget())
{
if(!VulkanApplicationFramework::Init(w,h))
return(false);
#ifndef USE_ZERO2ONE_COORD
for(uint i=0;i<VERTEX_COUNT;i++)
{
position_data_u16[i][0]=position_data_float[i][0]*w;
position_data_u16[i][1]=position_data_float[i][1]*h;
}
#endif//
if(!InitMaterial())
return(false);
return;
if(!InitVBO())
return(false);
if(!BuildCommandBuffer(render_obj))
return(false);
return(true);
return;
}
void Resize(uint w,uint h)override
void Render(double delta_time,graph::RenderCmdBuffer *cmd)override
{
VulkanApplicationFramework::Resize(w,h);
cmd->SetClearColor(0,clear_color);
BuildCommandBuffer(render_obj);
cmd->BeginRenderPass();
cmd->Render(render_obj);
cmd->EndRenderPass();
}
};//class TestApp:public VulkanApplicationFramework
};//class TestApp:public WorkObject
int main(int,char **)
int os_main(int,os_char **)
{
RunApp<TestApp>(1280,720);
return RunFramework<TestApp>(OS_TEXT("Draw triangle use UBO"));
}

103
example/Basic/rf_test.cpp Normal file
View File

@@ -0,0 +1,103 @@
#include<hgl/WorkManager.h>
#include<hgl/graph/VKVertexInputConfig.h>
#include<hgl/graph/VKRenderResource.h>
#include<hgl/graph/mtl/Material2DCreateConfig.h>
#include<hgl/graph/VKMaterialInstance.h>
using namespace hgl;
using namespace hgl::graph;
constexpr uint32_t SCREEN_WIDTH=1280;
constexpr uint32_t SCREEN_HEIGHT=720;
constexpr uint32_t VERTEX_COUNT=3;
constexpr float position_data[VERTEX_COUNT*2]=
{
0.0, -0.5,
-0.5, 0.5,
0.5, 0.5
};
constexpr float color_data[VERTEX_COUNT*4]=
{
1,0,0,1,
0,1,0,1,
0,0,1,1
};
class TestApp:public WorkObject
{
private:
Color4f clear_color =Color4f(0.2f,0.2f,0.2f,1.0f);
MaterialInstance * material_instance =nullptr;
Renderable * render_obj =nullptr;
Pipeline * pipeline =nullptr;
private:
bool InitAutoMaterial()
{
mtl::Material2DCreateConfig cfg(GetDeviceAttribute(),"VertexColor2D",Prim::Triangles);
cfg.coordinate_system=CoordinateSystem2D::NDC;
cfg.local_to_world=false;
AutoDelete<mtl::MaterialCreateInfo> mci=mtl::CreateVertexColor2D(&cfg);
material_instance=CreateMaterialInstance(mci);
return material_instance;
}
bool InitPipeline()
{
// pipeline=db->CreatePipeline(material_instance,sc_render_target,OS_TEXT("res/pipeline/solid2d"));
pipeline=CreatePipeline(material_instance,InlinePipeline::Solid2D,Prim::Triangles); //等同上一行为Framework重载默认使用swapchain的render target
return pipeline;
}
bool InitVBO()
{
render_obj=CreateRenderable("Triangle",VERTEX_COUNT,material_instance,pipeline,
{
{VAN::Position,VF_V2F,position_data},
{VAN::Color, VF_V4F,color_data}
});
return(render_obj);
}
public:
TestApp(RenderFramework *rf):WorkObject(rf,rf->GetSwapchainRenderTarget())
{
if(!InitAutoMaterial())
return;
if(!InitPipeline())
return;
if(!InitVBO())
return;
}
void Tick(double)override{}
void Render(double delta_time,graph::RenderCmdBuffer *cmd)
{
cmd->SetClearColor(0,clear_color);
cmd->BeginRenderPass();
cmd->Render(render_obj);
cmd->EndRenderPass();
}
};//class TestApp:public WorkObject
int os_main(int,os_char **)
{
return RunFramework<TestApp>(OS_TEXT("RenderFramework Test"));
}

2
example/GUI/DrawText.cpp
View File

@@ -28,7 +28,7 @@ private:
bool InitTextRenderable()
{
UTF16String str;
U16String str;
LoadStringFromTextFile(str,OS_TEXT("res/text/DaoDeBible.txt"));

21
example/Gizmo/Gizmo3DMove.cpp
View File

@@ -22,6 +22,7 @@
*/
#include"GizmoResource.h"
#include<hgl/graph/SceneNode.h>
#include<hgl/graph/VKRenderResource.h>
#include<hgl/graph/InlineGeometry.h>
@@ -84,7 +85,7 @@ bool InitGizmoMoveStaticMesh()
{
SceneNode *root_node=new SceneNode();
root_node->CreateSubNode(sphere);
root_node->Add(new SceneNode(sphere));
{
Transform tm;
@@ -96,30 +97,30 @@ bool InitGizmoMoveStaticMesh()
{
tm.SetScale(cylinder_scale);
tm.SetTranslation(0,0,GIZMO_CYLINDER_OFFSET);
root_node->CreateSubNode(tm,cylinder[2]); //Z 向上圆柱
root_node->Add(new SceneNode(tm,cylinder[2])); //Z 向上圆柱
tm.SetScale(one_scale);
tm.SetTranslation(0,0,GIZMO_CONE_OFFSET);
root_node->CreateSubNode(tm,cone[2]); //Z 向上圆锥
root_node->Add(new SceneNode(tm,cone[2])); //Z 向上圆锥
tm.SetScale(circle_scale);
tm.SetTranslation(GIZMO_TWO_AXIS_OFFSET,GIZMO_TWO_AXIS_OFFSET,0);
root_node->CreateSubNode(tm,circle[2]);
root_node->Add(new SceneNode(tm,circle[2]));
}
{
tm.SetScale(cylinder_scale);
tm.SetRotation(AxisVector::Y,90);
tm.SetTranslation(GIZMO_CYLINDER_OFFSET,0,0);
root_node->CreateSubNode(tm,cylinder[0]); //X 向右圆柱
root_node->Add(new SceneNode(tm,cylinder[0])); //X 向右圆柱
tm.SetScale(one_scale);
tm.SetTranslation(GIZMO_CONE_OFFSET,0,0);
root_node->CreateSubNode(tm,cone[0]); //X 向右圆锥
root_node->Add(new SceneNode(tm,cone[0])); //X 向右圆锥
tm.SetScale(circle_scale);
tm.SetTranslation(0,GIZMO_TWO_AXIS_OFFSET,GIZMO_TWO_AXIS_OFFSET);
root_node->CreateSubNode(tm,circle[0]);
root_node->Add(new SceneNode(tm,circle[0]));
}
{
@@ -127,15 +128,15 @@ bool InitGizmoMoveStaticMesh()
tm.SetRotation(AxisVector::X,-90);
tm.SetTranslation(0,GIZMO_CYLINDER_OFFSET,0);
root_node->CreateSubNode(tm,cylinder[1]); //Y 向前圆柱
root_node->Add(new SceneNode(tm,cylinder[1])); //Y 向前圆柱
tm.SetScale(one_scale);
tm.SetTranslation(0,GIZMO_CONE_OFFSET,0);
root_node->CreateSubNode(tm,cone[1]); //Y 向前圆锥
root_node->Add(new SceneNode(tm,cone[1])); //Y 向前圆锥
tm.SetScale(circle_scale);
tm.SetTranslation(GIZMO_TWO_AXIS_OFFSET,0,GIZMO_TWO_AXIS_OFFSET);
root_node->CreateSubNode(tm,circle[1]);
root_node->Add(new SceneNode(tm,circle[1]));
}
}

27
example/Gizmo/Gizmo3DRotate.cpp
View File

@@ -1,6 +1,7 @@
#include"GizmoResource.h"
#include<hgl/graph/SceneNode.h>
#include<hgl/graph/VKRenderResource.h>
#include<hgl/graph/InlineGeometry.h>
#include<hgl/graph/TransformFaceToCamera.h>
VK_NAMESPACE_BEGIN
@@ -30,9 +31,9 @@ bool InitGizmoRotateStaticMesh()
GetGizmoRenderable(GizmoShape::Torus,GizmoColor::White),
};
for(int i=0;i<4;i++)
for(auto *r:torus)
{
if(!torus[i])
if(!r)
return(false);
}
@@ -44,13 +45,27 @@ bool InitGizmoRotateStaticMesh()
tm.SetScale(GIZMO_ARROW_LENGTH);
root_node->CreateSubNode(tm,torus[0]);
root_node->Add(new SceneNode(tm,torus[0]));
tm.SetRotation(AXIS::Z,90);
root_node->CreateSubNode(tm,torus[1]);
root_node->Add(new SceneNode(tm,torus[1]));
tm.SetRotation(AXIS::Y,90);
root_node->CreateSubNode(tm,torus[2]);
root_node->Add(new SceneNode(tm,torus[2]));
}
{
SceneNode *white_torus=new SceneNode(scale(13),torus[3]);
white_torus->SetLocalNormal(AxisVector::X);
TransformFaceToCamera *rotate_white_torus_tfc=new TransformFaceToCamera();
//暂时因为无法传入Camera所以无法正确计算朝向正在设计Actor/World结构
white_torus->GetTransform().AddTransform(rotate_white_torus_tfc);
root_node->Add(white_torus);
}
sm_gizmo_rotate=CreateGizmoStaticMesh(root_node);

21
example/Gizmo/Gizmo3DScale.cpp
View File

@@ -22,6 +22,7 @@
*/
#include"GizmoResource.h"
#include<hgl/graph/SceneNode.h>
#include<hgl/graph/VKRenderResource.h>
#include<hgl/graph/InlineGeometry.h>
@@ -84,7 +85,7 @@ bool InitGizmoScaleStaticMesh()
{
SceneNode *root_node=new SceneNode();
root_node->CreateSubNode(scale(GIZMO_CENTER_SPHERE_RADIUS*2),center_cube);
root_node->Add(new SceneNode(scale(GIZMO_CENTER_SPHERE_RADIUS*2),center_cube));
{
Transform tm;
@@ -96,30 +97,30 @@ bool InitGizmoScaleStaticMesh()
{
tm.SetScale(cylinder_scale);
tm.SetTranslation(0,0,GIZMO_CYLINDER_OFFSET);
root_node->CreateSubNode(tm,cylinder[2]); //Z 向上圆柱
root_node->Add(new SceneNode(tm,cylinder[2])); //Z 向上圆柱
tm.SetScale(one_scale);
tm.SetTranslation(0,0,GIZMO_CONE_OFFSET);
root_node->CreateSubNode(tm,cube[2]); //Z 向上圆锥
root_node->Add(new SceneNode(tm,cube[2])); //Z 向上圆锥
tm.SetScale(plane_scale);
tm.SetTranslation(GIZMO_TWO_AXIS_OFFSET,GIZMO_TWO_AXIS_OFFSET,0);
root_node->CreateSubNode(tm,square[2]);
root_node->Add(new SceneNode(tm,square[2]));
}
{
tm.SetScale(cylinder_scale);
tm.SetRotation(AxisVector::Y,90);
tm.SetTranslation(GIZMO_CYLINDER_OFFSET,0,0);
root_node->CreateSubNode(tm,cylinder[0]); //X 向右圆柱
root_node->Add(new SceneNode(tm,cylinder[0])); //X 向右圆柱
tm.SetScale(one_scale);
tm.SetTranslation(GIZMO_CONE_OFFSET,0,0);
root_node->CreateSubNode(tm,cube[0]); //X 向右圆锥
root_node->Add(new SceneNode(tm,cube[0])); //X 向右圆锥
tm.SetScale(plane_scale);
tm.SetTranslation(0,GIZMO_TWO_AXIS_OFFSET,GIZMO_TWO_AXIS_OFFSET);
root_node->CreateSubNode(tm,square[0]);
root_node->Add(new SceneNode(tm,square[0]));
}
{
@@ -127,15 +128,15 @@ bool InitGizmoScaleStaticMesh()
tm.SetRotation(AxisVector::X,-90);
tm.SetTranslation(0,GIZMO_CYLINDER_OFFSET,0);
root_node->CreateSubNode(tm,cylinder[1]); //Y 向前圆柱
root_node->Add(new SceneNode(tm,cylinder[1])); //Y 向前圆柱
tm.SetScale(one_scale);
tm.SetTranslation(0,GIZMO_CONE_OFFSET,0);
root_node->CreateSubNode(tm,cube[1]); //Y 向前圆锥
root_node->Add(new SceneNode(tm,cube[1])); //Y 向前圆锥
tm.SetScale(plane_scale);
tm.SetTranslation(GIZMO_TWO_AXIS_OFFSET,0,GIZMO_TWO_AXIS_OFFSET);
root_node->CreateSubNode(tm,square[1]);
root_node->Add(new SceneNode(tm,square[1]));
}
}

1
example/Gizmo/GizmoResource.cpp
View File

@@ -8,6 +8,7 @@
#include<hgl/graph/VKRenderResource.h>
#include<hgl/color/Color.h>
#include<hgl/graph/InlineGeometry.h>
#include<hgl/graph/SceneNode.h>
#include"GizmoResource.h"
VK_NAMESPACE_BEGIN

2
example/Gizmo/GizmoResource.h
View File

@@ -20,7 +20,7 @@ constexpr const COLOR gizmo_color[size_t(GizmoColor::RANGE_SIZE)]=
COLOR::BlenderYellow,
};
constexpr const float GIZMO_ARROW_LENGTH=10; ///<箭头整体长度
constexpr const float GIZMO_ARROW_LENGTH =10.0f; ///<箭头整体长度
constexpr const float GIZMO_CENTER_SPHERE_RADIUS=1.0f; ///<中心球半径
constexpr const float GIZMO_CONE_LENGTH =1.0f; ///<圆锥高度

32
example/Gizmo/GizmoTest.cpp
View File

@@ -6,11 +6,12 @@ using namespace hgl;
using namespace hgl::graph;
const Vector3f GizmoPosition(0,0,0);
//
///**
//* 一种永远转向正面的场景节点
//* 一种永远转向正面的变换节点
//*/
//class BillboardSceneNode:public SceneNode
//class TransformBillboard:public TransformBase
//{
// CameraInfo *camera_info=nullptr;
// bool face_to_camera=false;
@@ -20,9 +21,6 @@ const Vector3f GizmoPosition(0,0,0);
//
//public:
//
// using SceneNode::SceneNode;
// virtual ~BillboardSceneNode()=default;
//
// virtual void SetCameraInfo (CameraInfo * ci ){camera_info =ci;}
// virtual void SetViewportInfo(ViewportInfo * vi ){viewport_info =vi;}
//
@@ -57,14 +55,11 @@ const Vector3f GizmoPosition(0,0,0);
class TestApp:public SceneAppFramework
{
SceneNode root;
//BillboardSceneNode *rotate_white_torus=nullptr;
StaticMesh *sm_move=nullptr;
StaticMesh *sm_rotate=nullptr;
StaticMesh *sm_scale=nullptr;
Renderable *face_torus=nullptr;
private:
bool InitGizmo()
@@ -76,8 +71,6 @@ private:
sm_rotate =GetGizmoRotateStaticMesh();
sm_scale =GetGizmoScaleStaticMesh();
face_torus =GetGizmoRenderable(GizmoShape::Torus,GizmoColor::White);
return(true);
}
@@ -88,23 +81,10 @@ private:
root.Clear();
root.CreateSubNode(sm_move->GetScene());
root.CreateSubNode(sm_rotate->GetScene());
//root.Add(Duplication(sm_move->GetScene()));
root.Add(Duplication(sm_rotate->GetScene()));
//root.CreateSubNode(sm_scale->GetScene());
//{
// Transform tm;
// tm.SetScale(7.5);
// rotate_white_torus=new BillboardSceneNode(tm,face_torus);
// rotate_white_torus->SetCameraInfo(ci);
// rotate_white_torus->SetFaceToCamera(true);
// root.AddSubNode(rotate_white_torus);
//}
root.RefreshMatrix();
render_list->SetCamera(ci);
render_list->Expend(&root);

2
example/Gizmo/PlaneGrid3D.cpp
View File

@@ -81,7 +81,7 @@ private:
if(!ri)
return(nullptr);
render_root.CreateSubNode(mat,ri);
render_root.Add(new SceneNode(mat,ri));
return ri;
}

2
example/Gizmo/RayPicking.cpp
View File

@@ -102,7 +102,7 @@ private:
return(nullptr);
}
render_root.CreateSubNode(ri);
render_root.Add(new SceneNode(ri));
return ri;
}

19
example/common/VulkanAppFramework.h
View File

@@ -55,7 +55,7 @@ protected:
GPUDevice * device =nullptr;
RenderPass * device_render_pass =nullptr;
RTSwapchain * sc_render_target =nullptr;
SwapchainRenderTarget * sc_render_target =nullptr;
protected:
@@ -220,12 +220,12 @@ public:
}
}
bool BuildCommandBuffer(RenderCmdBuffer *cb,RenderPass *rp,Framebuffer *fb,Renderable *ri)
bool BuildCommandBuffer(RenderCmdBuffer *cb,Framebuffer *fbo,Renderable *ri)
{
if(!ri)return(false);
cb->Begin();
cb->BindFramebuffer(rp,fb);
cb->BindFramebuffer(fbo);
cb->SetClearColor(0,clear_color);
cb->BeginRenderPass();
cb->BindPipeline(ri->GetPipeline());
@@ -238,19 +238,12 @@ public:
return(true);
}
void BuildCommandBuffer(RenderCmdBuffer *cb,RenderTarget *rt,Renderable *ri)
{
if(!cb||!rt||!ri)
return;
BuildCommandBuffer(cb,rt->GetRenderPass(),rt->GetFramebuffer(),ri);
}
bool BuildCommandBuffer(uint32_t index,Renderable *ri)
{
if(!ri)return(false);
return BuildCommandBuffer(cmd_buf[index],sc_render_target->GetRenderPass(),sc_render_target->GetFramebuffer(index),ri);
return BuildCommandBuffer(cmd_buf[index],
sc_render_target->GetFramebuffer(),ri);
}
bool BuildCommandBuffer(Renderable *ri)
@@ -277,7 +270,7 @@ public:
RenderCmdBuffer *cb=cmd_buf[index];
cb->Begin();
cb->BindFramebuffer(sc_render_target->GetRenderPass(),sc_render_target->GetFramebuffer(index));
cb->BindFramebuffer(sc_render_target->GetFramebuffer(index));
cb->SetClearColor(0,clear_color);
cb->BeginRenderPass();
rl->Render(cb);

87
inc/hgl/WorkManager.h Normal file
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@@ -0,0 +1,87 @@
#pragma once
#include<hgl/WorkObject.h>
#include<hgl/graph/VKRenderTargetSwapchain.h>
namespace hgl
{
/**
* 工作管理器管理一个序列的WorkObject<br>
*/
class WorkManager
{
protected:
graph::RenderFramework *render_framework;
uint fps=60;
double frame_time=1.0f/double(fps);
double last_update_time=0;
double last_render_time=0;
double cur_time=0;
WorkObject *cur_work_object=nullptr;
public:
WorkManager(graph::RenderFramework *rf)
{
render_framework=rf;
}
virtual ~WorkManager()
{
SAFE_CLEAR(cur_work_object);
}
void SetFPS(uint f)
{
fps=f;
frame_time=1.0f/double(fps);
}
void Tick(WorkObject *wo);
virtual void Render(WorkObject *wo);
void Run(WorkObject *wo);
};//class WorkManager
class SwapchainWorkManager:public WorkManager,public io::WindowEvent
{
graph::SwapchainModule *swapchain_module;
public:
SwapchainWorkManager(graph::RenderFramework *rf):WorkManager(rf)
{
swapchain_module=rf->GetSwapchainModule();
render_framework->Join(this);
}
~SwapchainWorkManager()
{
render_framework->Unjoin(this);
}
void Render(WorkObject *wo) override;
void OnResize(uint w,uint h) override;
};
template<typename WO> int RunFramework(const OSString &title,uint width=1280,uint height=720)
{
graph::RenderFramework rf(title);
if(!rf.Init(width,height))
return(-1);
SwapchainWorkManager wm(&rf);
wm.Run(new WO(&rf));
return 0;
}
}//namespcae hgl

101
inc/hgl/WorkObject.h Normal file
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@@ -0,0 +1,101 @@
#pragma once
#include<hgl/type/object/TickObject.h>
#include<hgl/graph/RenderFramework.h>
#include<hgl/graph/VKRenderResource.h>
#include<hgl/Time.h>
//#include<iostream>
namespace hgl
{
namespace graph::mtl
{
class MaterialCreateInfo;
}
/**
* 工作对象</p>
*
* WorkObject被定义为工作对象所有的渲染控制都需要被写在WorkObject的Render函数下。
*/
class WorkObject:public TickObject
{
graph::RenderFramework *render_framework=nullptr;
graph::IRenderTarget *cur_render_target=nullptr;
graph::RenderPass *render_pass=nullptr;
bool destroy_flag=false;
bool renderable=true;
bool render_dirty=true;
protected:
graph::RenderResource *db=nullptr; //暂时的,未来会被更好的机制替代
public:
graph::RenderFramework * GetRenderFramework (){return render_framework;}
graph::GPUDevice * GetDevice (){return render_framework->GetDevice();}
graph::GPUDeviceAttribute * GetDeviceAttribute (){return render_framework->GetDeviceAttribute();}
const VkExtent2D & GetExtent2D (){return cur_render_target->GetExtent();}
public:
const bool IsDestroy()const{return destroy_flag;}
const bool IsRenderable()const{return renderable;}
const bool IsRenderDirty()const{return render_dirty;}
void MarkDestory(){destroy_flag=true;}
void SetRenderable(bool r){renderable=r;}
void MarkRenderDirty(){render_dirty=true;}
public:
WorkObject(graph::RenderFramework *,graph::IRenderTarget *);
virtual ~WorkObject()=default;
virtual void OnRenderTargetSwitch(graph::RenderFramework *rf,graph::IRenderTarget *rt);
virtual void OnResize(const VkExtent2D &){}
virtual void Tick(double){}
virtual void Render(double delta_time,graph::RenderCmdBuffer *cmd)=0;
virtual void Render(double delta_time);
public:
template<typename ...ARGS>
graph::Pipeline *CreatePipeline(ARGS...args)
{
return render_pass->CreatePipeline(args...);
}
graph::MaterialInstance *CreateMaterialInstance(const graph::mtl::MaterialCreateInfo *mci,const graph::VILConfig *vil_cfg=nullptr)
{
return db->CreateMaterialInstance(mci,vil_cfg);
}
graph::Primitive *CreatePrimitive( const AnsiString &name,
const uint32_t vertices_count,
const graph::VIL *vil,
const std::initializer_list<graph::VertexAttribDataPtr> &vad_list);
graph::Renderable *CreateRenderable(const AnsiString &name,
const uint32_t vertices_count,
graph::MaterialInstance *mi,
graph::Pipeline *pipeline,
const std::initializer_list<graph::VertexAttribDataPtr> &vad_list);
};//class WorkObject
/**
* 但我们认为游戏开发者不应该关注如何控制渲染,而应该关注如何处理游戏逻辑.
* 所以我们在WorkObject的基础上再提供RenderWorkObject派生类用于直接封装好的渲染场景树控制。
*
* 开发者仅需要将要渲染的物件放置于场景树即可。
* 但开发者也可以直接使用WorkObject自行管理这些事。
* */
}//namespcae hgl

45
inc/hgl/graph/LightCullMode.h Normal file
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@@ -0,0 +1,45 @@
#pragma once
#include<hgl/graph/VKNamespace.h>
#include<hgl/TypeFunc.h>
VK_NAMESPACE_BEGIN
/**
* 光照剔除模式
*/
enum class LightingCullingMode
{
None, ///<不剔除
/**
* 基于世界坐标的剔除模式
* 一般用于一些空间划分极为规则的场景。每个物件都可以得到较为明确的体积,并可通过世界坐标快速定位。
* 如即时战略游戏,普通的小爆炸,火光,影响的范围完全可以在世界坐标内圈定那些特件受影响,然后直接前向渲染即可。
*/
WorldCoord, ///<世界坐标剔除
/*
* 基于Tile的剔除模式
* 按屏幕XY坐标划分成多个Tile再配合znear/zfar形成一个Volume。所有光源和Volume计算相交性
*/
Tile, ///<瓦片剔除
/**
* 基于Tile的剔除模式的改进型
* 同Tile方法得出Tile后再通过遍历Tile内所有象素得出当前Tile的最远z值和最近z值。
* 根据XY与zNear/zFar得出一个Volume计算所有光源与Volume相交性。
*/
TileVolume, ///<瓦片体积剔除
/**
* 基于Tile的剔除模式的改进型
* 同TileVolume方法得出Volume后再将Volume按深度划分成多个Volume。
* 剔除掉没有象素的Volume再将剩下的Volume与光源计算相交性。
*/
Cluster, ///<集簇剔除
ENUM_CLASS_RANGE(None,Cluster)
};//enum class LightingCullingMode
VK_NAMESPACE_END

53
inc/hgl/graph/MaterialRenderList.h
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@@ -1,7 +1,6 @@
#pragma once
#include<hgl/graph/RenderNode.h>
#include<hgl/graph/VKVABList.h>
#include<hgl/type/SortedSets.h>
#include<hgl/graph/VKIndirectCommandBuffer.h>
VK_NAMESPACE_BEGIN
@@ -9,15 +8,48 @@ class RenderAssignBuffer;
class SceneNode;
struct CameraInfo;
struct RenderPipelineIndex:public Comparator<RenderPipelineIndex>
{
Material *material;
Pipeline *pipeline;
public:
const int compare(const RenderPipelineIndex &rli)const override
{
if(material<rli.material)return(-1);
if(material>rli.material)return(1);
if(pipeline<rli.pipeline)return(-1);
if(pipeline>rli.pipeline)return(1);
return(0);
}
public:
RenderPipelineIndex()
{
material=nullptr;
pipeline=nullptr;
}
RenderPipelineIndex(Material *m,Pipeline *p)
{
material=m;
pipeline=p;
}
};//struct RenderPipelineIndex
/**
* 同一材质的对象渲染列表
* 同一材质与管线的渲染列表
*/
class MaterialRenderList
{
GPUDevice *device;
RenderCmdBuffer *cmd_buf;
Material *material;
RenderPipelineIndex rp_index;
CameraInfo *camera_info;
@@ -34,7 +66,6 @@ private:
uint32_t first_instance; ///<第一个绘制实例(和instance渲染无关,对应InstanceRate的VAB)
uint32_t instance_count;
Pipeline * pipeline;
MaterialInstance * mi;
const PrimitiveDataBuffer * pdb;
@@ -61,7 +92,6 @@ protected:
VABList * vab_list;
Pipeline * last_pipeline;
const PrimitiveDataBuffer * last_data_buffer;
const VDM * last_vdm;
const PrimitiveRenderData * last_render_data;
@@ -76,25 +106,20 @@ protected:
public:
MaterialRenderList(GPUDevice *d,bool l2w,Material *m);
MaterialRenderList(GPUDevice *d,bool l2w,const RenderPipelineIndex &rpi);
~MaterialRenderList();
void Add(SceneNode *);
void SetCameraInfo(CameraInfo *ci)
{
camera_info=ci;
}
void SetCameraInfo(CameraInfo *ci){camera_info=ci;}
void Clear()
{
rn_list.Clear();
}
void Clear(){rn_list.Clear();}
void End();
void Render(RenderCmdBuffer *);
void UpdateLocalToWorld(); //刷新所有对象的LocalToWorld矩阵
void UpdateMaterialInstance(SceneNode *);
};//class MaterialRenderList
VK_NAMESPACE_END

2
inc/hgl/graph/MaterialRenderMap.h
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@@ -2,7 +2,7 @@
#include<hgl/graph/MaterialRenderList.h>
VK_NAMESPACE_BEGIN
class MaterialRenderMap:public ObjectMap<Material *,MaterialRenderList>
class MaterialRenderMap:public ObjectMap<RenderPipelineIndex,MaterialRenderList>
{
public:

87
inc/hgl/graph/RenderFramework.h Normal file
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@@ -0,0 +1,87 @@
#pragma once
#include<hgl/platform/Window.h>
#include<hgl/graph/VKDevice.h>
#include<hgl/graph/VKCommandBuffer.h>
#include<hgl/graph/module/SwapchainModule.h>
#include<hgl/graph/module/GraphModuleManager.h>
#include<hgl/graph/RenderList.h>
VK_NAMESPACE_BEGIN
class FontSource;
class TileFont;
class RenderPassManager;
class TextureManager;
class RenderTargetManager;
class RenderModule;
class RenderFramework:public io::WindowEvent
{
OSString app_name;
Window * win =nullptr;
VulkanInstance * inst =nullptr;
GPUDevice * device =nullptr;
RenderResource * render_resource =nullptr;
protected:
GraphModuleManager * module_manager =nullptr;
RenderPassManager * rp_manager =nullptr;
TextureManager * tex_manager =nullptr;
RenderTargetManager * rt_manager =nullptr;
SwapchainModule * sc_module =nullptr;
public:
Window * GetWindow ()const{return win;}
GPUDevice * GetDevice ()const{return device;}
VkDevice GetVkDevice ()const{return device->GetDevice();}
const GPUPhysicalDevice * GetPhysicalDevice ()const{return device->GetPhysicalDevice();}
GPUDeviceAttribute * GetDeviceAttribute ()const{return device->GetDeviceAttribute();}
RenderResource * GetRenderResource ()const{return render_resource;}
public:
GraphModuleManager * GetModuleManager (){return module_manager;}
RenderPassManager * GetRenderPassManager (){return rp_manager;}
TextureManager * GetTextureManager (){return tex_manager;}
RenderTargetManager * GetRenderTargetManager (){return rt_manager;}
SwapchainModule * GetSwapchainModule (){return sc_module;}
SwapchainRenderTarget * GetSwapchainRenderTarget(){return sc_module?sc_module->GetRenderTarget():nullptr;}
public:
RenderFramework(const OSString &);
virtual ~RenderFramework();
virtual bool Init(uint w,uint h);
public:
RenderList *CreateRenderList()
{
return(new RenderList(device));
}
TileFont *CreateTileFont(FontSource *fs,int limit_count=-1); ///<创建只使用一种字符的Tile字符管理对象
public: // event
virtual void OnResize(uint w,uint h);
virtual void OnActive(bool);
virtual void OnClose();
};//class RenderFramework
VK_NAMESPACE_END

1
inc/hgl/graph/RenderList.h
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@@ -40,6 +40,7 @@ namespace hgl
virtual bool Render(RenderCmdBuffer *); ///<渲染所有对象
virtual void UpdateLocalToWorld(); ///<更新所有对象的变换数据
virtual void UpdateMaterialInstance(SceneNode *); ///<有对象互换了材质实例
virtual void Clear(); ///<彻底清理
};//class RenderList

18
inc/hgl/graph/RenderNode.h
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@@ -2,7 +2,7 @@
#define HGL_GRAPH_RENDER_NODE_INCLUDE
#include<hgl/graph/VK.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
namespace hgl
{
namespace graph
@@ -11,8 +11,10 @@ namespace hgl
class MaterialInstance;
class SceneNode;
struct RenderNode
struct RenderNode:public Comparator<RenderNode>
{
uint index; ///<在MaterialRenderList中的索引
SceneNode * scene_node;
uint32 l2w_version;
@@ -20,12 +22,22 @@ namespace hgl
Vector3f world_position;
float to_camera_distance;
public:
//该函数位于MaterialRenderList.cpp
const int compare(const RenderNode &)const override;
};
using RenderNodeList=List<RenderNode>;
using RenderNodePointerList=List<RenderNode *>;
using MaterialInstanceSets=SortedSets<MaterialInstance *>; ///<材质实例集合
using MaterialInstanceSets=SortedSet<MaterialInstance *>; ///<材质实例集合
}//namespace graph
template<> inline const int ItemComparator<graph::RenderNode>::compare(const graph::RenderNode &a,const graph::RenderNode &b)
{
return a.compare(b);
}
}//namespace hgl
#endif//HGL_GRAPH_RENDER_NODE_INCLUDE

38
inc/hgl/graph/SceneInfo.h
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@@ -1,38 +0,0 @@
#ifndef HGL_GRAPH_SCENE_INFO_INCLUDE
#define HGL_GRAPH_SCENE_INFO_INCLUDE
#include<hgl/math/Matrix.h>
#include<hgl/CompOperator.h>
namespace hgl
{
namespace graph
{
/**
* MVP矩阵
*/
struct MVPMatrix
{
Matrix4f model; ///< model: Local to World
//Matrix4f normal; ///<transpose(inverse(mat3(model)));
Matrix3x4f normal; ///<这里用3x4在Shader中是3x3(但实际它是3x4保存)
Matrix4f mv; ///< view * model
Matrix4f mvp; ///< projection * view * model
public:
void Set(const Matrix4f &local_to_world,const Matrix4f &view_projection,const Matrix4f &view)
{
model =local_to_world;
normal =transpose(inverse(model));
mv =view*model;
mvp =view_projection*model;
}
CompOperatorMemcmp(const MVPMatrix &);
};//struct MVPMatrix
constexpr size_t MVPMatrixBytes=sizeof(MVPMatrix);
}//namespace graph
}//namespace hgl
#endif//HGL_GRAPH_SCENE_INFO_INCLUDE

31
inc/hgl/graph/SceneManager.h Normal file
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@@ -0,0 +1,31 @@
#pragma once
#include<hgl/graph/SceneNode.h>
namespace hgl
{
namespace graph
{
/**
* 场景管理器<Br>
* 管理一个场景中的所有资源与场景节点
*/
class SceneManager
{
SceneNode *root_node;
public:
SceneNode *GetSceneRoot() {return root_node;}
const SceneNode *GetSceneRoot()const{return root_node;}
const uint GetNodeCount()const { return node_list.GetCount(); }
public:
};//class SceneManager
}//namespace graph
}//namespace hgl

116
inc/hgl/graph/SceneMatrix.h Normal file
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@@ -0,0 +1,116 @@
#pragma once
#include<hgl/math/Transform.h>
namespace hgl
{
namespace graph
{
/**
* 场景节点矩阵类<br>
*
* 用于描述一个物体在3D空间中的位置、旋转、缩放等信息。<br>
* 构成说明:<br>
* <ul>
* <li>LocalMatrix 一般用于描述当前节点相对上一级的变换矩阵</li>
* <li>LocalToWorldMatrix 最终用于描述当前节点相对于世界的变换矩阵,在渲染时使用</li>
*
* <li>transform_manager 用于管理当前节点所有的变换情况如果本节点不存在额外变换数量为0。</li>
* </ul>
*
* LocalToWorldMatrix=ParnetMatrix * LocalMatrix * TransformMatrix<br>
*/
class SceneMatrix :public VersionData<Matrix4f>
{
protected:
Matrix4f parent_matrix;
Matrix4f local_matrix;
bool local_is_identity;
Vector3f local_normal;
TransformManager transform_manager;
Matrix4f transform_matrix;
protected:
Vector3f OriginWorldPosition; //变换前世界坐标
Vector3f FinalWorldPosition; //变换后世界坐标
Vector3f OriginWorldNormal; //变换前世界法线
Vector3f FinalWorldNormal; //变换后世界法线
protected:
Matrix4f inverse_local_to_world_matrix; ///<世界到本地矩阵
Matrix4f inverse_transpose_local_to_world_matrix; ///<世界到本地矩阵的转置矩阵
void MakeNewestData(Matrix4f &local_to_world_matrix) override; ///<生成最新的数据(需要派生类重载)
public:
void Clear();
const Matrix4f &GetLocalMatrix()const{return local_matrix;} ///<取得本地矩阵
const Vector3f &GetLocalNormal()const{return local_normal;} ///<取得本地法线
const Matrix4f &GetLocalToWorldMatrix(){return GetNewestVersionData();} ///<取得本地到世界矩阵
const Matrix4f &GetInverseLocalToWorldMatrix(){UpdateNewestData();return inverse_local_to_world_matrix;} ///<取得世界到本地矩阵
const Matrix4f &GetInverseTransposeLocalToWorldMatrix() ///<取得世界到本地矩阵的转置矩阵
{
UpdateNewestData();
return inverse_transpose_local_to_world_matrix;
}
TransformManager &GetTransform(){return transform_manager;} ///<取得变换管理器
const Vector3f &GetWorldPosition()const{return FinalWorldPosition;} ///<取得世界坐标
const Vector3f &GetWorldNormal()const { return FinalWorldNormal; } ///<取得世界法线
public:
SceneMatrix():VersionData(Identity4f){Clear();}
SceneMatrix(SceneMatrix &so);
SceneMatrix(const Matrix4f &mat):VersionData(Identity4f)
{
SetLocalMatrix(mat);
UpdateVersion();
}
void SetLocalNormal(const Vector3f &normal)
{
//if(IsNearlyEqual(local_normal,normal))
if(!hgl_cmp(local_normal,normal))
return;
local_normal=normal;
UpdateVersion();
}
void SetLocalMatrix(const Matrix4f &mat)
{
//if (IsNearlyEqual(local_matrix,mat))
if(!hgl_cmp(local_matrix,mat))
return;
local_matrix=mat;
local_is_identity=IsIdentityMatrix(mat);
UpdateVersion();
}
void SetParentMatrix(const Matrix4f &pm)
{
//if (IsNearlyEqual(parent_matrix,pm))
if(!hgl_cmp(parent_matrix,pm))
return;
parent_matrix=pm;
UpdateVersion();
}
virtual void Update();
};//class SceneMatrix
}//namespace graph
}//namespace hgl

107
inc/hgl/graph/SceneNode.h
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@@ -2,12 +2,16 @@
#define HGL_GRAPH_SCENE_NODE_INCLUDE
#include<hgl/type/ObjectList.h>
#include<hgl/type/IDName.h>
#include<hgl/graph/SceneOrient.h>
#include<hgl/graph/AABB.h>
namespace hgl
{
namespace graph
{
using SceneNodeID =uint64;
using SceneNodeName =U16IDName;
/**
* 场景节点数据类<br>
* 从场景坐标变换(SceneOrient)类继承,
@@ -15,6 +19,11 @@ namespace hgl
*/
class SceneNode:public SceneOrient ///场景节点类
{
SceneNode *Owner; ///<上级节点
SceneNodeID NodeID; ///<节点ID
SceneNodeName NodeName; ///<节点名称
protected:
AABB BoundingBox; ///<绑定盒
@@ -23,109 +32,67 @@ namespace hgl
Renderable *render_obj=nullptr; ///<可渲染实例
protected:
ObjectList<SceneNode> ChildNode; ///<子节点
public:
ObjectList<SceneNode> SubNode; ///<子节点
const SceneNodeID & GetNodeID ()const { return NodeID; } ///<取得节点ID
const SceneNodeName & GetNodeName ()const { return NodeName; } ///<取得节点名称
const ObjectList<SceneNode> &GetChildNode()const { return ChildNode; } ///<取得子节点列表
public:
SceneNode()=default;
SceneNode(SceneNode *);
SceneNode(const SceneNode &)=delete;
SceneNode(const SceneNode *)=delete;
SceneNode(const SceneOrient &so ):SceneOrient(so) {}
SceneNode( Renderable *ri ) {render_obj=ri;}
SceneNode(const Matrix4f &mat ):SceneOrient(mat) {}
SceneNode(const Matrix4f &mat, Renderable *ri ):SceneOrient(mat) {render_obj=ri;}
public:
virtual ~SceneNode()=default;
void Clear() override
{
SceneOrient::Clear();
Owner=nullptr;
BoundingBox.SetZero();
LocalBoundingBox.SetZero();
SubNode.Clear();
ChildNode.Clear();
render_obj=nullptr;
}
const bool IsEmpty()const
{
if(render_obj)return(false);
if(SubNode.GetCount())return(false);
if(ChildNode.GetCount())return(false);
return(true);
}
Renderable *GetRenderable(){return render_obj;}
void SetRenderable(Renderable *);
void SetOwner(SceneNode *sn) {Owner=sn;}
SceneNode * GetOwner() noexcept{return Owner;}
const SceneNode * GetOwner()const noexcept{return Owner;}
SceneNode *AddSubNode(SceneNode *sn)
void SetRenderable(Renderable *);
Renderable *GetRenderable() noexcept{return render_obj;}
const Renderable *GetRenderable()const noexcept{return render_obj;}
SceneNode *Add(SceneNode *sn)
{
if(!sn)
return(nullptr);
SubNode.Add(sn);
return sn;
}
SceneNode *CreateSubNode()
{
SceneNode *sn=new SceneNode();
SubNode.Add(sn);
return sn;
}
SceneNode *CreateSubNode(Renderable *ri)
{
if(!ri)
return(nullptr);
SceneNode *sn=new SceneNode(ri);
SubNode.Add(sn);
return sn;
}
SceneNode *CreateSubNode(const Matrix4f &mat)
{
SceneNode *sn=new SceneNode(mat);
SubNode.Add(sn);
return sn;
}
SceneNode *CreateSubNode(const Matrix4f &mat,Renderable *ri)
{
if(!ri)
return(nullptr);
SceneNode *sn=new SceneNode(mat,ri);
SubNode.Add(sn);
return sn;
}
SceneNode *CreateSubNode(SceneNode *node)
{
if(!node)
return(nullptr);
SceneNode *sn=new SceneNode(node);
SubNode.Add(sn);
return node;
}
SceneNode *CreateSubNode(const Matrix4f &mat,SceneNode *node)
{
if(!node)
return(nullptr);
SceneNode *sn=new SceneNode(mat);
sn->CreateSubNode(node);
SubNode.Add(sn);
ChildNode.Add(sn);
sn->SetOwner(this);
return sn;
}
@@ -140,6 +107,8 @@ namespace hgl
virtual const AABB & GetLocalBoundingBox ()const{return LocalBoundingBox;} ///<取得本地坐标绑定盒
// virtual const AABB & GetWorldBoundingBox ()const{return WorldBoundingBox;} ///<取得世界坐标绑定盒
};//class SceneNode
SceneNode *Duplication(SceneNode *); ///<复制一个场景节点
}//namespace graph
}//namespace hgl
#endif//HGL_GRAPH_SCENE_NODE_INCLUDE

88
inc/hgl/graph/SceneNodeAttributes.h Normal file
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@@ -0,0 +1,88 @@
#pragma once
#include<hgl/type/DataType.h>
#include<hgl/graph/ShadowPolicy.h>
namespace hgl
{
namespace graph
{
#pragma pack(push,1)
/**
* 场景节点变换属性<br>
*/
struct SceneNodeTransformAttributes
{
uint moveable:1; ///<可移动
uint rotatable:1; ///<可旋转
uint scalable:1; ///<可缩放
//为什么要 移动、旋转、缩放 三个分开而不是一个整体
// 一、不可移动、不可旋转、不可缩放的通常用于Lightmap等可以完全预计算的东西
// 二、物理引擎对于可缩放是独立支持的,所以缩放要分开
// 三、逻辑处理对移动一般有特别响应,但旋转不一定(也有可能只处理旋转),所以移动和旋转要分开
// 比如RTS中的激光坦克、电磁坦克由于是圆形范围攻击的所以不需要关心旋转属性只需要关心移动属性即可
// 同理,地面雷达,因为是扇形旋转扫描敌人的,所以只关心旋转
// 而士兵、坦克等单位,既需要移动,又需要旋转,但不会缩放
// 再比如风车,它不能移动,但可以旋转。但我们判断是否靠近是否看到,根本不需要关心旋转属性
};
/**
* 场景节点可视属性<br>
*/
struct SceneNodeVisualAttributes
{
uint visible:1; ///<是否可见
uint render_color:1; ///<渲染颜色
uint render_normal:1; ///<渲染法线
uint render_depth:1; ///<渲染深度
uint render_at_reflect:1; ///<在反射时渲染
uint cast_shadow:1; ///<投射阴影
uint cast_static_shadow:1; ///<投射静态阴影(预计算阴影)
uint cast_dynamic_shadow:1; ///<投射动态阴影
uint receive_static_shadow:1; ///<接收静态阴影
uint receive_dynamic_shadow:1; ///<接收动态阴影
uint receive_static_light:1; ///<接收静态光照
uint receive_dynamic_light:1; ///<接收动态光照
ObjectDynamicShadowPolicy dynamic_shadow_policy:8; ///<动态阴影策略
// uint8 light_channels; ///<接收的光通道
};
constexpr const size_t SceneNodeVisualAttributesBytes=sizeof(SceneNodeVisualAttributes);
/**
* 场景节点裁剪属性<br>
*/
struct SceneNodeCullAttribute
{
uint32 min_distance; ///<最小裁剪距离
uint32 max_distance; ///<最大裁剪距离
uint32 min_volume; ///<最小裁剪体积
uint32 max_volume; ///<最大裁剪体积
};
struct SceneNodeAttributes
{
uint editor_only:1; ///<仅编辑器中使用
uint can_tick:1; ///<可被Tick
SceneNodeTransformAttributes transform; ///<变换属性
SceneNodeVisualAttributes visual; ///<可视属性
SceneNodeCullAttribute cull; ///<裁剪属性
};
constexpr const size_t SceneNodeAttributesBytes=sizeof(SceneNodeAttributes);
#pragma pack(pop)
}//namespace graph
}//namespace hgl

110
inc/hgl/graph/SceneOrient.h
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@@ -2,115 +2,13 @@
#define HGL_GRAPH_SCENE_ORIENT_INCLUDE
#include<hgl/graph/VK.h>
#include<hgl/math/Transform.h>
#include<hgl/graph/SceneMatrix.h>
namespace hgl
{
namespace graph
{
class SceneMatrix :public VersionData<Matrix4f>
{
protected:
Matrix4f parent_matrix;
Matrix4f local_matrix;
TransformManager transform_manager;
Matrix4f transform_matrix;
protected:
Matrix4f inverse_local_to_world_matrix; ///<世界到本地矩阵
Matrix4f inverse_transpose_local_to_world_matrix; ///<世界到本地矩阵的转置矩阵
void MakeNewestData(Matrix4f &local_to_world_matrix) override ///<生成最新的数据(需要派生类重载)
{
transform_manager.GetMatrix(transform_matrix);
local_to_world_matrix=parent_matrix*local_matrix*transform_matrix;
inverse_local_to_world_matrix =inverse(local_to_world_matrix);
inverse_transpose_local_to_world_matrix=transpose(inverse_local_to_world_matrix);
}
public:
void Clear()
{
parent_matrix=Identity4f;
local_matrix=Identity4f;
transform_matrix=Identity4f;
UpdateVersion();
}
const Matrix4f &GetLocalMatrix()const{return local_matrix;} ///<取得本地矩阵
const Matrix4f &GetLocalToWorldMatrix(){return GetNewestVersionData();} ///<取得本地到世界矩阵
const Matrix4f &GetInverseLocalToWorldMatrix(){UpdateNewestData();return inverse_local_to_world_matrix;} ///<取得世界到本地矩阵
const Matrix4f &GetInverseTransposeLocalToWorldMatrix() ///<取得世界到本地矩阵的转置矩阵
{
UpdateNewestData();
return inverse_transpose_local_to_world_matrix;
}
TransformManager &GetTransform() { return transform_manager; } ///<取得变换管理器
public:
SceneMatrix():VersionData(Identity4f)
{
Clear();
}
SceneMatrix(SceneMatrix &so):VersionData(so.GetLocalToWorldMatrix())
{
parent_matrix=so.parent_matrix;
local_matrix=so.local_matrix;
transform_manager=so.transform_manager;
transform_matrix=so.transform_matrix;
inverse_local_to_world_matrix=so.inverse_local_to_world_matrix;
inverse_transpose_local_to_world_matrix=so.inverse_transpose_local_to_world_matrix;
UpdateVersion();
}
SceneMatrix(const Matrix4f &mat):VersionData(Identity4f)
{
SetLocalMatrix(mat);
UpdateVersion();
}
void SetLocalMatrix(const Matrix4f &mat)
{
//if (IsNearlyEqual(local_matrix,mat))
if(!hgl_cmp(local_matrix,mat))
return;
local_matrix=mat;
UpdateVersion();
}
void SetParentMatrix(const Matrix4f &pm)
{
//if (IsNearlyEqual(parent_matrix,pm))
if(!hgl_cmp(parent_matrix,pm))
return;
parent_matrix=pm;
UpdateVersion();
}
};//class SceneMatrix
/**
* 方向定位数据基类<br>
* 用于描述一个物体在3D空间中的位置、旋转、缩放等信息。<br>
* 构成说明:<br>
* <ul>
* <li>LocalMatrix 一般用于描述当前节点相对上一级的变换矩阵</li>
* <li>LocalToWorldMatrix 最终用于描述当前节点相对于世界的变换矩阵,在渲染时使用</li>
*
* <li>transform_manager 用于管理当前节点所有的变换情况如果本节点不存在额外变换数量为0。</li>
* </ul>
*
* LocalToWorldMatrix=ParnetMatrix * LocalMatrix * TraansformMatrix<br>
*/
class SceneOrient ///场景定位类
{
@@ -118,8 +16,6 @@ namespace hgl
SceneMatrix scene_matrix;
Vector3f WorldPosition;
public:
SceneOrient()=default;
@@ -130,9 +26,9 @@ namespace hgl
virtual void Clear()
{
scene_matrix.Clear();
WorldPosition=ZeroVector3f;
}
void SetLocalNormal(const Vector3f &nor) {scene_matrix.SetLocalNormal(nor);} ///<设置本地法线
void SetLocalMatrix (const Matrix4f &mat){scene_matrix.SetLocalMatrix(mat);} ///<设置本地矩阵
void SetParentMatrix(const Matrix4f &mat){scene_matrix.SetParentMatrix(mat);} ///<设置上级到世界空间变换矩阵
@@ -140,7 +36,7 @@ namespace hgl
const uint32 GetLocalToWorldMatrixVersion()const {return scene_matrix.GetNewestVersion();} ///<取得版本号
const Vector3f & GetWorldPosition() const { return WorldPosition; } ///<取得世界坐标
const Vector3f & GetWorldPosition() const {return scene_matrix.GetWorldPosition();} ///<取得世界坐标
const Matrix4f & GetLocalMatrix ()const {return scene_matrix.GetLocalMatrix();} ///<取得本地矩阵
TransformManager & GetTransform () {return scene_matrix.GetTransform();} ///<取得变换管理器

43
inc/hgl/graph/ShadowPolicy.h Normal file
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@@ -0,0 +1,43 @@
#pragma once
#include<hgl/TypeFunc.h>
namespace hgl
{
namespace graph
{
/**
* 全局动态阴影策略
*/
enum class GlobalDynamicShadowPolicy
{
None, ///<不产生全局动态阴影
Cascade, ///<级联阴影
ParallelSplit, ///<平行分割阴影
Virtual, ///<虚拟阴影
ENUM_CLASS_RANGE(None,Virtual)
};
/**
* 对象动态阴影策略<br>
* 注动态阴影会使用屏幕空间技术不管使用以下何种技术会全部合成到一个屏幕空间shadow map再统一做blur之类的操作
*/
enum class ObjectDynamicShadowPolicy
{
None, ///<不产生动态阴影
Global, ///<使用全局动态阴影
PerObject, ///<独立对象阴影(就是每个物件独立走普通shadowmap得到一张深度图缓存到硬盘)
Plane, ///<压片阴影(极少三角面的片状物体专用)
Capsule, ///<胶囊体阴影(一般用于骨骼动画模型阴影,每根骨骼一个胶囊)
Cube, ///<立方体阴影(一般用于一些建筑物比如楼房直接使用一个Cube做Raymarch)
MeshSDF, ///<模型3D距离场阴影
ENUM_CLASS_RANGE(None,MeshSDF)
};
}//namespace graph
}//namespace hgl

31
inc/hgl/graph/StaticMesh.h
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@@ -1,25 +1,46 @@
#pragma once
#include<hgl/graph/VKRenderable.h>
#include<hgl/type/SortedSets.h>
#include<hgl/graph/SceneNode.h>
#include<hgl/graph/VKNamespace.h>
#include<hgl/graph/StaticMeshLODPolicy.h>
#include<hgl/graph/ShadowPolicy.h>
VK_NAMESPACE_BEGIN
class SceneNode;
class StaticMesh
{
protected:
StaticMeshLODPolicy lod_policy; ///<LOD策略
SceneNode *root_node;
StaticMesh *shadow_proxy_static_mesh; ///<阴影代理静态网格
StaticMesh *physic_proxy_static_mesh; ///<物理代理静态网格
protected:
bool two_side; ///<双面渲染
ObjectDynamicShadowPolicy recommend_dynamic_shadow_policy; ///<动态阴影策略(推荐项,最终可被取代)
public:
const StaticMeshLODPolicy GetLODPolicy()const { return lod_policy; } ///<取得LOD策略
const ObjectDynamicShadowPolicy GetRecommendDynamicShadowPolicy()const { return recommend_dynamic_shadow_policy; } ///<取得推荐的动态阴影策略
public:
StaticMesh(SceneNode *);
virtual ~StaticMesh();
// static StaticMesh *CreateNewObject(RenderResource *,SceneNode *);
public:
SceneNode *GetScene(){return root_node;}
SceneNode *GetShadowNode() { return shadow_proxy_static_mesh?shadow_proxy_static_mesh->GetScene():root_node; } ///<取得阴影渲染节点
SceneNode *GetPhysicNode() { return physic_proxy_static_mesh?physic_proxy_static_mesh->GetScene():root_node; } ///<取得物理渲染节点
};//class StaticMesh
VK_NAMESPACE_END

30
inc/hgl/graph/StaticMeshLODPolicy.h Normal file
View File

@@ -0,0 +1,30 @@
#pragma once
#include<hgl/graph/VKNamespace.h>
#include<hgl/TypeFunc.h>
VK_NAMESPACE_BEGIN
/**
* 静态模型LOD策略
*/
enum class StaticMeshLODPolicy:uint8
{
None=0, ///<无LOD
DiscardDetail, ///<丢弃细节
AnotherMesh, ///<另一个模型
Billboard, ///<广告牌
//Voxel, ///<体素
//MeshSDF, ///<网格SDF
//MeshCard, ///<网格卡片
ENUM_CLASS_RANGE(None,Billboard)
};//enum class StaticMeshLODPolicy
VK_NAMESPACE_END

6
inc/hgl/graph/TileData.h
View File

@@ -12,13 +12,15 @@ namespace hgl
{
namespace graph
{
class TextureManager;
/**
* TileData是一种处理大量等同尺寸及格式贴图的管理机制程序会自动根据显卡最大贴图处理能力来创建尽可能符合需求的贴图。(注Tile的大小不必符合2次幂)
* Tile的增加或删除程序会自动排序尽可能小的减少I/O消耗。
*/
class TileData ///Tile纹理管理
{
GPUDevice *device;
TextureManager *tex_manager;
protected:
@@ -52,7 +54,7 @@ namespace hgl
public:
TileData(GPUDevice *,Texture2D *,const uint tw,const uint th);
TileData(TextureManager *,Texture2D *,const uint tw,const uint th);
virtual ~TileData();
void BeginCommit();

27
inc/hgl/graph/VK.h
View File

@@ -1,5 +1,4 @@
#ifndef HGL_GRAPH_VULKAN_INCLUDE
#define HGL_GRAPH_VULKAN_INCLUDE
#pragma once
#include<hgl/type/List.h>
#include<hgl/math/Math.h>
@@ -9,6 +8,7 @@
#include<hgl/graph/VKFormat.h>
#include<hgl/graph/VKPrimitiveType.h>
#include<hgl/graph/VKStruct.h>
#include<hgl/graph/ViewportInfo.h>
#include<hgl/graph/VKRenderbufferInfo.h>
VK_NAMESPACE_BEGIN
@@ -25,9 +25,21 @@ constexpr size_t VK_DESCRIPTOR_TYPE_END_RANGE=VK_DESCRIPTOR_TYPE_INPUT_ATTACHMEN
constexpr size_t VK_DESCRIPTOR_TYPE_RANGE_SIZE=VK_DESCRIPTOR_TYPE_END_RANGE-VK_DESCRIPTOR_TYPE_BEGIN_RANGE+1;
#endif//VK_DESCRIPTOR_TYPE_RANGE_SIZE
struct VertexAttribDataPtr
{
const char * name;
const VkFormat format;
const void * data;
};
using BindingMap =Map<AnsiString,int>;
using BindingMapArray =BindingMap[VK_DESCRIPTOR_TYPE_RANGE_SIZE];
class DescriptorBinding;
class GraphModule;
class RenderFramework;
class VulkanInstance;
class GPUPhysicalDevice;
class GPUDevice;
@@ -36,8 +48,12 @@ class DeviceQueue;
class ImageView;
class Framebuffer;
struct Swapchain;
class IRenderTarget;
class RenderTarget;
class RTSwapchain;
class MultiFrameRenderTarget;
class SwapchainRenderTarget;
struct CopyBufferToImageInfo;
class Texture;
class Texture1D;
@@ -50,9 +66,12 @@ class TextureCubeArray;
class Sampler;
class TileData;
class DeviceMemory;
class DeviceBuffer;
struct DeviceBufferData;
template<typename T> class DeviceBufferMap;
struct PrimitiveDataBuffer;
struct PrimitiveRenderData;
@@ -174,5 +193,5 @@ inline void copy(VkExtent3D &e3d,const VkExtent2D &e2d,const uint32 depth=1)
e3d.height =e2d.height;
e3d.depth =depth;
}
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_INCLUDE

41
inc/hgl/graph/VKBuffer.h
View File

@@ -1,8 +1,8 @@
#ifndef HGL_GRAPH_VULKAN_BUFFER_INCLUDE
#define HGL_GRAPH_VULKAN_BUFFER_INCLUDE
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/graph/VKMemory.h>
VK_NAMESPACE_BEGIN
struct DeviceBufferData
{
@@ -50,5 +50,40 @@ public:
virtual bool Write (const void *ptr,uint32_t size) {return buf.memory->Write(ptr,0,size);}
bool Write (const void *ptr) {return buf.memory->Write(ptr);}
};//class DeviceBuffer
template<typename T> class DeviceBufferMap
{
DeviceBuffer *dev_buf;
T data_map;
public:
static const VkDeviceSize GetSize()
{
return sizeof(T);
}
public:
DeviceBufferMap(DeviceBuffer *buf)
{
dev_buf=buf;
}
virtual ~DeviceBufferMap()
{
delete dev_buf;
}
operator DeviceBuffer *(){return dev_buf;}
T *data(){return &data_map;}
void Update()
{
if(dev_buf)
dev_buf->Write(&data_map,sizeof(T));
}
};
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_BUFFER_INCLUDE

50
inc/hgl/graph/VKCommandBuffer.h
View File

@@ -5,6 +5,7 @@
#include<hgl/graph/VKVABList.h>
#include<hgl/graph/VKPipeline.h>
#include<hgl/graph/VKDescriptorSet.h>
#include<hgl/graph/VKRenderable.h>
#include<hgl/color/Color4f.h>
VK_NAMESPACE_BEGIN
class GPUCmdBuffer
@@ -15,6 +16,8 @@ protected:
VkCommandBuffer cmd_buf;
bool cmd_begin;
public:
GPUCmdBuffer(const GPUDeviceAttribute *attr,VkCommandBuffer cb);
@@ -24,8 +27,18 @@ public:
operator const VkCommandBuffer()const{return cmd_buf;}
operator const VkCommandBuffer *()const{return &cmd_buf;}
bool Begin();
bool End(){return(vkEndCommandBuffer(cmd_buf)==VK_SUCCESS);}
const bool IsBegin()const{return cmd_begin;}
virtual bool Begin();
virtual bool End()
{
if(!cmd_begin)
return(false);
cmd_begin=false;
return(vkEndCommandBuffer(cmd_buf)==VK_SUCCESS);
}
#ifdef _DEBUG
void SetDebugName(const AnsiString &);
@@ -37,6 +50,8 @@ public:
#endif//_DEBUG
};//class GPUCmdBuffer
class DescriptorBinding;
class RenderCmdBuffer:public GPUCmdBuffer
{
uint32_t cv_count;
@@ -44,17 +59,29 @@ class RenderCmdBuffer:public GPUCmdBuffer
VkRect2D render_area;
VkViewport viewport;
Framebuffer *fbo;
RenderPassBeginInfo rp_begin;
VkPipelineLayout pipeline_layout;
void SetFBO(Framebuffer *);
DescriptorBinding *desc_binding=nullptr;
private:
void SetClear();
public:
RenderCmdBuffer(const GPUDeviceAttribute *attr,VkCommandBuffer cb);
~RenderCmdBuffer();
void SetDescriptorBinding(DescriptorBinding *db) { desc_binding=db; }
bool End() override
{
desc_binding=nullptr;
return GPUCmdBuffer::End();
}
void SetRenderArea(const VkRect2D &ra){render_area=ra;}
void SetRenderArea(const VkExtent2D &);
void SetViewport(const VkViewport &vp){viewport=vp;}
@@ -78,7 +105,7 @@ public:
//以上设定在Begin开始后即不可改变
bool BindFramebuffer(RenderPass *rp,Framebuffer *fb);
bool BindFramebuffer(Framebuffer *);
bool BeginRenderPass();
void NextSubpass(){vkCmdNextSubpass(cmd_buf,VK_SUBPASS_CONTENTS_INLINE);}
@@ -216,6 +243,19 @@ public: //draw
void Draw (const PrimitiveDataBuffer *prb,const PrimitiveRenderData *prd,const uint32_t instance_count=1,const uint32_t first_instance=0);
public: //dynamic state
public:
void Render(Renderable *ri)
{
if(!ri)return;
BindPipeline(ri->GetPipeline());
BindDescriptorSets(ri->GetMaterial());
BindDataBuffer(ri->GetDataBuffer());
Draw(ri->GetDataBuffer(),ri->GetRenderData());
}
};//class RenderCmdBuffer:public GPUCmdBuffer
class TextureCmdBuffer:public GPUCmdBuffer

8
inc/hgl/graph/VKDebugUtils.h
View File

@@ -3,6 +3,7 @@
#include<hgl/graph/VK.h>
#include<hgl/color/Color4f.h>
#include<hgl/graph/VKTexture.h>
VK_NAMESPACE_BEGIN
struct DebugUtilsFunction
@@ -93,6 +94,13 @@ public:
#undef DU_FUNC
void SetTexture(Texture *tex,const AnsiString &info)
{
SetImage( tex->GetImage(), info+"_Image" );
SetImageView( tex->GetVulkanImageView(), info+"_ImageView" );
SetDeviceMemory(tex->GetDeviceMemory(), info+"_Memory" );
}
void QueueBegin (VkQueue,const char *,const Color4f &color=Color4f(1,1,1,1));
void QueueEnd (VkQueue q){duf.QueueEnd(q);}
void QueueInsert (VkQueue q,const char *,const Color4f &color=Color4f(1,1,1,1));

15
inc/hgl/graph/VKDescriptorBindingManage.h
View File

@@ -1,14 +1,12 @@
#ifndef HGL_GRAPH_DESCRIPTOR_BINDING_MANAGE_INCLUDE
#define HGL_GRAPH_DESCRIPTOR_BINDING_MANAGE_INCLUDE
#pragma once
#include<hgl/type/Map.h>
#include<hgl/type/String.h>
#include<hgl/graph/VK.h>
#include<hgl/graph/VKDescriptorSetType.h>
namespace hgl
{
namespace graph
{
VK_NAMESPACE_BEGIN
class DeviceBuffer;
class Texture;
class Material;
@@ -107,6 +105,5 @@ namespace hgl
bool Bind(Material *);
};//class DescriptorBinding
}//namespace graph
}//namespace hgl
#endif//HGL_GRAPH_DESCRIPTOR_BINDING_MANAGE_INCLUDE
VK_NAMESPACE_END

4
inc/hgl/graph/VKDescriptorSet.h
View File

@@ -4,7 +4,7 @@
#include<hgl/graph/VK.h>
#include<hgl/type/Map.h>
#include<hgl/type/ObjectList.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
VK_NAMESPACE_BEGIN
class DeviceBuffer;
@@ -20,7 +20,7 @@ class DescriptorSet
ObjectList<VkDescriptorImageInfo> image_list;
List<VkWriteDescriptorSet> wds_list;
SortedSets<uint32_t> binded_sets;
SortedSet<uint32_t> binded_sets;
bool is_dirty;

100
inc/hgl/graph/VKDevice.h
View File

@@ -32,29 +32,10 @@ class GPUDevice
{
GPUDeviceAttribute *attr;
DeviceQueue *texture_queue;
TextureCmdBuffer *texture_cmd_buf;
private:
DeviceRenderPassManage *render_pass_manage;
RenderPass *device_render_pass;
RTSwapchain *sc_rt;
RTSwapchain *CreateSwapchainRenderTarget();
void InitRenderPassManage();
void ClearRenderPassManage();
private:
VkCommandBuffer CreateCommandBuffer(const AnsiString &);
bool CreateSwapchainFBO(Swapchain *);
Swapchain *CreateSwapchain(const VkExtent2D &acquire_extent);
private:
friend class VulkanDeviceCreater;
@@ -79,15 +60,11 @@ public:
const VkColorSpaceKHR GetColorSpace ()const {return attr->surface_format.colorSpace;}
VkQueue GetGraphicsQueue () {return attr->graphics_queue;}
RenderPass * GetRenderPass () {return device_render_pass;}
RTSwapchain * GetSwapchainRT () {return sc_rt;}
const VkExtent2D & GetSwapchainSize ()const {return sc_rt->GetExtent();}
void WaitIdle ()const {vkDeviceWaitIdle(attr->device);}
#ifdef _DEBUG
DebugUtils * GetDebugUtils (){return attr->debug_utils;}
#endif//_DEBUG
public:
@@ -141,7 +118,13 @@ public: //Buffer相关
#define CREATE_BUFFER_OBJECT(LargeName,type) DeviceBuffer *Create##LargeName( VkDeviceSize size,void *data, SharingMode sm=SharingMode::Exclusive) {return CreateBuffer(VK_BUFFER_USAGE_##type##_BUFFER_BIT,size ,size,data, sm);} \
DeviceBuffer *Create##LargeName( VkDeviceSize size, SharingMode sm=SharingMode::Exclusive) {return CreateBuffer(VK_BUFFER_USAGE_##type##_BUFFER_BIT,size ,size,nullptr, sm);} \
DeviceBuffer *Create##LargeName(VkDeviceSize range,VkDeviceSize size,void *data, SharingMode sm=SharingMode::Exclusive) {return CreateBuffer(VK_BUFFER_USAGE_##type##_BUFFER_BIT,range,size,data, sm);} \
DeviceBuffer *Create##LargeName(VkDeviceSize range,VkDeviceSize size, SharingMode sm=SharingMode::Exclusive) {return CreateBuffer(VK_BUFFER_USAGE_##type##_BUFFER_BIT,range,size,nullptr, sm);}
DeviceBuffer *Create##LargeName(VkDeviceSize range,VkDeviceSize size, SharingMode sm=SharingMode::Exclusive) {return CreateBuffer(VK_BUFFER_USAGE_##type##_BUFFER_BIT,range,size,nullptr, sm);} \
\
template<typename T> T *Create##LargeName() \
{ \
DeviceBuffer *buf=Create##LargeName(T::GetSize()); \
return(buf?new T(buf):nullptr); \
}
CREATE_BUFFER_OBJECT(UBO,UNIFORM)
CREATE_BUFFER_OBJECT(SSBO,STORAGE)
@@ -160,57 +143,6 @@ public: //间接绘制
IndirectDrawIndexedBuffer * CreateIndirectDrawIndexedBuffer(const uint32_t cmd_count,SharingMode sm=SharingMode::Exclusive);
IndirectDispatchBuffer * CreateIndirectDispatchBuffer( const uint32_t cmd_count,SharingMode sm=SharingMode::Exclusive);
public: //Image
VkImage CreateImage (VkImageCreateInfo *);
void DestroyImage (VkImage);
private: //texture
bool CopyBufferToImage (const CopyBufferToImageInfo *info,VkPipelineStageFlags destinationStage);
bool CopyBufferToImage (Texture *,DeviceBuffer *buf,const VkBufferImageCopy *,const int count,const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags);//=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool CopyBufferToImage2D (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic_list,const int bic_count, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic_list, bic_count, 0,1,dstStage);}
bool CopyBufferToImage2D (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic, 1, 0,1,dstStage);}
bool CopyBufferToImageCube (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic_list,const int bic_count, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic_list, bic_count, 0,6,dstStage);}
bool CopyBufferToImageCube (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic, 1, 0,6,dstStage);}
bool CommitTexture2D (Texture2D *,DeviceBuffer *buf,VkPipelineStageFlags stage);
bool CommitTexture2DMipmaps (Texture2D *,DeviceBuffer *buf,const VkExtent3D &,uint32_t);
bool CommitTextureCube (TextureCube *,DeviceBuffer *buf,const uint32_t mipmaps_zero_bytes,VkPipelineStageFlags stage);
bool CommitTextureCubeMipmaps (TextureCube *,DeviceBuffer *buf,const VkExtent3D &,uint32_t);
bool SubmitTexture (const VkCommandBuffer *cmd_bufs,const uint32_t count=1); ///<提交纹理处理到队列
public: //Texture
bool CheckFormatSupport(const VkFormat,const uint32_t bits,ImageTiling tiling=ImageTiling::Optimal)const;
bool CheckTextureFormatSupport(const VkFormat fmt,ImageTiling tiling=ImageTiling::Optimal)const{return CheckFormatSupport(fmt,VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT,tiling);}
Texture2D *CreateTexture2D(TextureData *);
Texture2D *CreateTexture2D(TextureCreateInfo *ci);
Texture2DArray *CreateTexture2DArray(TextureData *);
Texture2DArray *CreateTexture2DArray(TextureCreateInfo *ci);
Texture2DArray *CreateTexture2DArray(const uint32_t w,const uint32_t h,const uint32 l,const VkFormat fmt,const bool mipmaps);
TextureCube *CreateTextureCube(TextureData *);
TextureCube *CreateTextureCube(TextureCreateInfo *ci);
void Clear(TextureCreateInfo *);
bool ChangeTexture2D(Texture2D *,DeviceBuffer *buf, const List<Image2DRegion> &,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2D(Texture2D *,DeviceBuffer *buf, const RectScope2ui &, VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2D(Texture2D *,void *data,const uint32_t size,const RectScope2ui &, VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
// bool ChangeTexture2DArray(Texture2DArray *,DeviceBuffer *buf, const List<Image2DRegion> &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2DArray(Texture2DArray *,DeviceBuffer *buf, const RectScope2ui &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2DArray(Texture2DArray *,void *data,const uint32_t size,const RectScope2ui &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
public: //
Sampler *CreateSampler(VkSamplerCreateInfo *sci=nullptr);
@@ -231,25 +163,11 @@ public: //Command Buffer 相关
public:
RenderPass * AcquireRenderPass( const RenderbufferInfo *,const uint subpass_count=2);
Fence * CreateFence(bool);
Semaphore * CreateGPUSemaphore();
DeviceQueue *CreateQueue(const uint32_t fence_count=1,const bool create_signaled=false);
public: //FrameBuffer相关
Framebuffer *CreateFBO(RenderPass *rp,ImageView **color_list,const uint color_count,ImageView *depth);
// Framebuffer *CreateFBO(RenderPass *,List<ImageView *> &color,ImageView *depth);
Framebuffer *CreateFBO(RenderPass *,ImageView *color,ImageView *depth);
Framebuffer *CreateFBO(RenderPass *,ImageView *);
public:
RenderTarget *CreateRT( const FramebufferInfo *fbi,RenderPass *,const uint32_t fence_count=1);
RenderTarget *CreateRT( const FramebufferInfo *fbi,const uint32_t fence_count=1);
public:
TileData *CreateTileData(const VkFormat video_format,const uint width,const uint height,const uint count); ///<创建一个Tile数据集

10
inc/hgl/graph/VKFramebuffer.h
View File

@@ -1,13 +1,13 @@
#ifndef HGL_GRAPH_VULKAN_FRAMEBUFFER_INCLUDE
#define HGL_GRAPH_VULKAN_FRAMEBUFFER_INCLUDE
#include<hgl/graph/VK.h>
#include<hgl/graph/VKRenderPass.h>
VK_NAMESPACE_BEGIN
class Framebuffer
{
VkDevice device;
VkFramebuffer frame_buffer;
VkRenderPass render_pass;
RenderPass *render_pass;
VkExtent2D extent;
uint32_t attachment_count;
@@ -16,9 +16,9 @@ class Framebuffer
private:
friend class GPUDevice;
friend class RenderTargetManager;
Framebuffer(VkDevice,VkFramebuffer,const VkExtent2D &,VkRenderPass,uint32_t color_count,bool depth);
Framebuffer(VkDevice,VkFramebuffer,const VkExtent2D &,RenderPass *,uint32_t color_count,bool depth);
public:
@@ -27,7 +27,7 @@ public:
operator VkFramebuffer(){return frame_buffer;}
const VkFramebuffer GetFramebuffer ()const{return frame_buffer;}
const VkRenderPass GetRenderPass ()const{return render_pass;}
RenderPass * GetRenderPass ()const{return render_pass;}
const VkExtent2D & GetExtent ()const{return extent;}

2
inc/hgl/graph/VKMaterial.h
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@@ -95,6 +95,6 @@ public:
MaterialInstance *CreateMI(const VILConfig *vil_cfg=nullptr);
};//class Material
using MaterialSets=SortedSets<Material *>;
using MaterialSets=SortedSet<Material *>;
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_MATERIAL_INCLUDE

12
inc/hgl/graph/VKPhysicalDevice.h
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@@ -2,7 +2,7 @@
#include<hgl/graph/VK.h>
#include<hgl/type/String.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
VK_NAMESPACE_BEGIN
class GPUPhysicalDevice
@@ -14,11 +14,13 @@ class GPUPhysicalDevice
VkPhysicalDeviceVulkan11Features features11;
VkPhysicalDeviceVulkan12Features features12;
VkPhysicalDeviceVulkan13Features features13;
VkPhysicalDeviceVulkan14Features features14;
VkPhysicalDeviceProperties properties;
VkPhysicalDeviceVulkan11Properties properties11;
VkPhysicalDeviceVulkan12Properties properties12;
VkPhysicalDeviceVulkan13Properties properties13;
VkPhysicalDeviceVulkan14Properties properties14;
VkPhysicalDeviceMemoryProperties memory_properties;
List<VkLayerProperties> layer_properties;
@@ -36,6 +38,7 @@ public:
const VkPhysicalDeviceVulkan11Features &GetFeatures11 ()const{return features11;}
const VkPhysicalDeviceVulkan12Features &GetFeatures12 ()const{return features12;}
const VkPhysicalDeviceVulkan13Features &GetFeatures13 ()const{return features13;}
const VkPhysicalDeviceVulkan14Features &GetFeatures14 ()const{return features14;}
const VkPhysicalDeviceProperties & GetProperties ()const{return properties;}
const VkPhysicalDeviceMemoryProperties &GetMemoryProperties ()const{return memory_properties;}
@@ -68,6 +71,10 @@ public:
const uint32_t GetConstantSize ()const{return properties.limits.maxPushConstantsSize;}
const VkDeviceSize GetMaxBufferSize()const{return properties13.maxBufferSize;}
const uint32_t GetMaxPushDescriptors()const{return properties14.maxPushDescriptors;}
public:
/**
@@ -182,6 +189,9 @@ public:
const VkBool32 SupportYcbcrConversion ()const{return features11.samplerYcbcrConversion;}
const VkBool32 SupportClampMirrorToEdge ()const{return features12.samplerMirrorClampToEdge;}
const VkBool32 SupportSmoothLines ()const{return features14.smoothLines;}
const VkBool32 SupportStippledSmoothLines ()const{return features14.stippledSmoothLines;}
const void GetPointSize(float &granularity,float &min_size,float &max_size) const
{
granularity =properties.limits.pointSizeGranularity;

12
inc/hgl/graph/VKQueue.h
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@@ -1,4 +1,4 @@
#ifndef HGL_GRAPH_VULKAN_SUBMIT_QUEUE_INCLUDE
#ifndef HGL_GRAPH_VULKAN_SUBMIT_QUEUE_INCLUDE
#define HGL_GRAPH_VULKAN_SUBMIT_QUEUE_INCLUDE
#include<hgl/graph/VK.h>
@@ -31,10 +31,18 @@ public:
VkResult Present(const VkPresentInfoKHR *pi){return vkQueuePresentKHR(queue,pi);}
/**
* 等待Submit的队列完成操作。这个操作会阻塞当前线程所以在Submit后请不要立即使用它。而是在下一次队列提交前再做这个操作。
*/
bool WaitQueue();
/**
* 等待Queue命令执行完成的fence信号
*/
bool WaitFence(const bool wait_all=true,const uint64_t time_out=HGL_NANO_SEC_PER_SEC);
bool Submit(const VkCommandBuffer &cmd_buf,Semaphore *wait_sem,Semaphore *complete_sem);
bool Submit(const VkCommandBuffer *cmd_buf,const uint32_t count,Semaphore *wait_sem,Semaphore *complete_sem);
bool Submit(GPUCmdBuffer *cmd_buf,Semaphore *wait_sem,Semaphore *complete_sem);
};//class DeviceQueue
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_SUBMIT_QUEUE_INCLUDE

8
inc/hgl/graph/VKRenderPass.h
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@@ -29,7 +29,7 @@ protected:
private:
friend class DeviceRenderPassManage;
friend class RenderPassManager;
RenderPass(VkDevice d,VkPipelineCache pc,VkRenderPass rp,const List<VkFormat> &cf,VkFormat df);
@@ -37,8 +37,10 @@ public:
virtual ~RenderPass();
VkRenderPass GetVkRenderPass(){return render_pass;}
VkPipelineCache GetPipelineCache(){return pipeline_cache;}
operator const VkRenderPass()const{return render_pass;}
const VkRenderPass GetVkRenderPass()const{return render_pass;}
const VkPipelineCache GetPipelineCache()const{return pipeline_cache;}
const uint GetColorCount()const{return color_formats.GetCount();}
const List<VkFormat> & GetColorFormat()const{return color_formats;}

16
inc/hgl/graph/VKRenderResource.h
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@@ -34,11 +34,8 @@ using DescriptorSetID =int;
using PrimitiveID =int;
using RenderableID =int;
using SamplerID =int;
using TextureID =int;
using StaticMeshID =int;
class VertexAttribData;
using ShaderModuleMapByName=ObjectMap<AnsiString,ShaderModule>;
constexpr const size_t VK_SHADER_STAGE_TYPE_COUNT=20;//GetBitOffset((uint32_t)VK_SHADER_STAGE_CLUSTER_CULLING_BIT_HUAWEI)+1;
@@ -51,7 +48,6 @@ class RenderResource
ShaderModuleMapByName shader_module_by_name[VK_SHADER_STAGE_TYPE_COUNT];
Map<AnsiString,Material *> material_by_name;
Map<OSString,Texture *> texture_by_name;
IDObjectManage<MaterialID, Material> rm_material; ///<材质合集
IDObjectManage<MaterialInstanceID, MaterialInstance> rm_material_instance; ///<材质实例合集
@@ -59,7 +55,6 @@ class RenderResource
IDObjectManage<PrimitiveID, Primitive> rm_primitives; ///<图元合集
IDObjectManage<BufferID, DeviceBuffer> rm_buffers; ///<顶点缓冲区合集
IDObjectManage<SamplerID, Sampler> rm_samplers; ///<采样器合集
IDObjectManage<TextureID, Texture> rm_textures; ///<纹理合集
IDObjectManage<RenderableID, Renderable> rm_renderables; ///<渲染实例集合集
IDObjectManage<StaticMeshID, StaticMesh> rm_static_mesh; ///<静态网格合集
@@ -105,7 +100,6 @@ public: //添加数据到管理器如果指针为nullptr会返回-1
PrimitiveID Add(Primitive * p ){return rm_primitives.Add(p);}
BufferID Add(DeviceBuffer * buf ){return rm_buffers.Add(buf);}
SamplerID Add(Sampler * s ){return rm_samplers.Add(s);}
TextureID Add(Texture * t ){return rm_textures.Add(t);}
RenderableID Add(Renderable * r ){return rm_renderables.Add(r);}
StaticMeshID Add(StaticMesh * sm ){return rm_static_mesh.Add(sm);}
@@ -159,14 +153,6 @@ public: //Material
Sampler * CreateSampler(VkSamplerCreateInfo *sci=nullptr);
Sampler * CreateSampler(Texture *);
public: //texture
Texture2D * LoadTexture2D(const OSString &,bool auto_mipmaps=false);
TextureCube * LoadTextureCube(const OSString &,bool auto_mipmaps=false);
Texture2DArray * CreateTexture2DArray(const AnsiString &name,const uint32_t width,const uint32_t height,const uint32_t layer,const VkFormat &fmt,bool auto_mipmaps=false);
bool LoadTexture2DToArray(Texture2DArray *,const uint32_t layer,const OSString &);
public: //Get
Material * GetMaterial (const MaterialID &id){return rm_material.Get(id);}
@@ -175,7 +161,6 @@ public: //Get
Primitive * GetPrimitive (const PrimitiveID &id){return rm_primitives.Get(id);}
DeviceBuffer * GetBuffer (const BufferID &id){return rm_buffers.Get(id);}
Sampler * GetSampler (const SamplerID &id){return rm_samplers.Get(id);}
Texture * GetTexture (const TextureID &id){return rm_textures.Get(id);}
Renderable * GetRenderable (const RenderableID &id){return rm_renderables.Get(id);}
StaticMesh * GetStaticMesh (const StaticMeshID &id){return rm_static_mesh.Get(id);}
@@ -188,7 +173,6 @@ public: //Release
void Release(Primitive * p ){rm_primitives.Release(p);}
void Release(DeviceBuffer * buf ){rm_buffers.Release(buf);}
void Release(Sampler * s ){rm_samplers.Release(s);}
void Release(Texture * t ){rm_textures.Release(t);}
void Release(Renderable * r ){rm_renderables.Release(r);}
void Release(StaticMesh * sm ){rm_static_mesh.Release(sm);}

145
inc/hgl/graph/VKRenderTarget.h
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@@ -1,5 +1,4 @@
#ifndef HGL_GRAPH_VULKAN_RENDER_TARGET_INCLUDE
#define HGL_GRAPH_VULKAN_RENDER_TARGET_INCLUDE
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/graph/VKRenderPass.h>
@@ -7,109 +6,77 @@
#include<hgl/graph/VKSwapchain.h>
#include<hgl/graph/VKQueue.h>
#include<hgl/graph/VKPipeline.h>
#include<hgl/graph/VKCommandBuffer.h>
#include<hgl/graph/VKDescriptorBindingManage.h>
//#include<iostream>
VK_NAMESPACE_BEGIN
/**
* 渲染目标
*/
class RenderTarget
class RenderFramework;
using UBOViewportInfo=DeviceBufferMap<graph::ViewportInfo>;
class IRenderTarget
{
protected:
DeviceQueue *queue;
RenderPass *render_pass;
Framebuffer *fbo;
RenderFramework *render_framework;
VkExtent2D extent;
Semaphore *render_complete_semaphore =nullptr;
UBOViewportInfo *ubo_vp_info;
protected:
uint32_t color_count;
Texture2D **color_textures;
Texture2D *depth_texture;
protected:
friend class GPUDevice;
RenderTarget(DeviceQueue *,Semaphore *);
RenderTarget(DeviceQueue *,Semaphore *,RenderPass *_rp,Framebuffer *_fb,Texture2D **color_texture_list,const uint32_t color_count,Texture2D *depth_texture);
DescriptorBinding desc_binding;
public:
virtual ~RenderTarget();
RenderFramework * GetRenderFramework ()const{return render_framework;}
GPUDevice * GetDevice ()const;
VkDevice GetVkDevice ()const;
DescriptorBinding * GetDescriptorBinding(){return &desc_binding;}
DeviceQueue * GetQueue () {return queue;}
const VkExtent2D &GetExtent ()const{return extent;}
virtual RenderPass * GetRenderPass () {return render_pass;}
virtual const VkRenderPass GetVkRenderPass ()const {return render_pass->GetVkRenderPass();}
virtual const uint32_t GetColorCount ()const {return fbo->GetColorCount();}
virtual Framebuffer * GetFramebuffer () {return fbo;}
virtual Texture2D * GetColorTexture (const int index=0){return color_textures[index];}
virtual Texture2D * GetDepthTexture (){return depth_texture;}
virtual uint32_t GetColorCount ()=0;
virtual bool hasDepth ()=0;
public: // command buffer
public:
Semaphore * GetRenderCompleteSemaphore (){return render_complete_semaphore;}
virtual bool Submit (RenderCmdBuffer *,Semaphore *present_complete_semaphore=nullptr);
void OnResize(const VkExtent2D &ext);
bool WaitQueue(){return queue->WaitQueue();}
bool WaitFence(){return queue->WaitFence();}
};//class RenderTarget
public:
/**
* 交换链专用渲染目标
*/
class RTSwapchain:public RenderTarget
IRenderTarget(RenderFramework *,const VkExtent2D &);
virtual ~IRenderTarget();
virtual Framebuffer * GetFramebuffer ()=0;
virtual RenderPass * GetRenderPass ()=0;
virtual Texture2D * GetColorTexture (const int index=0)=0;
virtual Texture2D * GetDepthTexture ()=0;
public: // Command Buffer
virtual DeviceQueue * GetQueue ()=0;
virtual Semaphore * GetRenderCompleteSemaphore()=0;
virtual RenderCmdBuffer * GetRenderCmdBuffer ()=0;
virtual bool Submit (Semaphore *wait_sem)=0;
virtual bool Submit (){return Submit(nullptr);}
virtual bool WaitQueue ()=0;
virtual bool WaitFence ()=0;
virtual RenderCmdBuffer * BeginRender ()=0;
virtual void EndRender ()=0;
public:
virtual void Bind (Material *mtl)
{
VkDevice device;
Swapchain *swapchain;
PresentInfo present_info;
if(mtl)
desc_binding.Bind(mtl);
}
};//class IRenderTarget
Semaphore *present_complete_semaphore=nullptr;
uint32_t current_frame;
public:
RTSwapchain(VkDevice dev,Swapchain *sc,DeviceQueue *q,Semaphore *rcs,Semaphore *pcs,RenderPass *rp);
~RTSwapchain();
Framebuffer * GetFramebuffer ()override {return swapchain->sc_fbo[current_frame];}
Framebuffer * GetFramebuffer (const uint32_t index) {return swapchain->sc_fbo[index];}
const uint32_t GetColorCount ()const override {return 1;}
const uint32_t GetImageCount ()const {return swapchain->color_count;}
virtual Texture2D * GetColorTexture (const int index=0) override{return swapchain->sc_color[index];}
virtual Texture2D * GetDepthTexture () override{return swapchain->sc_depth;}
public:
const uint32_t GetCurrentFrameIndices ()const {return current_frame;}
Semaphore * GetPresentCompleteSemaphore () {return present_complete_semaphore;}
public:
/**
* 请求下一帧画面的索引
* @param present_complete_semaphore 推送完成信号
*/
int AcquireNextImage();
/**
* 推送后台画面到前台
* @param render_complete_semaphore 渲染完成信号
*/
bool PresentBackbuffer(VkSemaphore *wait_semaphores,const uint32_t wait_semaphore_count);
bool PresentBackbuffer();
bool Submit(VkCommandBuffer);
bool Submit(VkCommandBuffer,Semaphore *);
};//class RTSwapchain:public RenderTarget
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_RENDER_TARGET_INCLUDE

38
inc/hgl/graph/VKRenderTargetData.h Normal file
View File

@@ -0,0 +1,38 @@
#pragma once
#include<hgl/graph/VK.h>
VK_NAMESPACE_BEGIN
struct RenderTargetData
{
Framebuffer * fbo;
DeviceQueue * queue;
Semaphore * render_complete_semaphore;
RenderCmdBuffer * cmd_buf;
uint32_t color_count; ///<颜色成分数量
Texture2D ** color_textures; ///<颜色成分纹理列表
Texture2D * depth_texture; ///<深度成分纹理
public:
Texture2D *GetColorTexture(const uint32_t index)
{
if(index>=color_count)
return(nullptr);
return color_textures[index];
}
bool Submit(Semaphore *wait_sem);
RenderCmdBuffer *BeginRender(DescriptorBinding *);
void EndRender();
virtual void Clear();
};//struct RenderTargetData
VK_NAMESPACE_END

97
inc/hgl/graph/VKRenderTargetMultiFrame.h Normal file
View File

@@ -0,0 +1,97 @@
#pragma once
#include<hgl/graph/VKRenderTarget.h>
#include<hgl/graph/VKRenderTargetData.h>
VK_NAMESPACE_BEGIN
/**
* 多帧渲染目标
*/
class MultiFrameRenderTarget:public IRenderTarget
{
protected:
uint32_t frame_number;
uint32_t current_frame;
RenderTargetData *rtd_list;
protected:
friend class RenderTargetManager;
MultiFrameRenderTarget(RenderFramework *rf,const uint32_t fn,RenderTargetData *rtl):IRenderTarget(rf,rtl[0].fbo->GetExtent())
{
frame_number=fn;
current_frame=0;
rtd_list=rtl;
}
public:
virtual ~MultiFrameRenderTarget() override
{
for(uint32_t i=0;i<frame_number;i++)
rtd_list[i].Clear();
delete[] rtd_list;
}
virtual bool NextFrame()
{
++current_frame;
if(current_frame>=frame_number)
current_frame=0;
return(true);
}
uint32_t GetCurrentFrameIndices ()const{return current_frame;}
uint32_t GetFrameCount ()const{return frame_number;}
public:
Framebuffer * GetFramebuffer ()override{return rtd_list[current_frame].fbo;}
RenderPass * GetRenderPass ()override{return rtd_list[current_frame].fbo->GetRenderPass();}
uint32_t GetColorCount ()override{return rtd_list[current_frame].color_count;}
Texture2D * GetColorTexture (const int index=0) override{return rtd_list[current_frame].GetColorTexture(index);}
Texture2D * GetDepthTexture () override{return rtd_list[current_frame].depth_texture;}
bool hasDepth ()override{return rtd_list[current_frame].depth_texture;}
public: // Command Buffer
DeviceQueue * GetQueue ()override{return rtd_list[current_frame].queue;}
Semaphore * GetRenderCompleteSemaphore ()override{return rtd_list[current_frame].render_complete_semaphore;}
RenderCmdBuffer * GetRenderCmdBuffer ()override{return rtd_list[current_frame].cmd_buf;}
Framebuffer * GetFramebuffer (const uint32_t index){return rtd_list[index].fbo;}
RenderCmdBuffer * GetRenderCmdBuffer (const uint32_t index){return rtd_list[index].cmd_buf;}
virtual bool Submit (Semaphore *wait_sem)override{return rtd_list[current_frame].Submit(wait_sem);}
bool WaitQueue ()override{return rtd_list[current_frame].queue->WaitQueue();}
bool WaitFence ()override{return rtd_list[current_frame].queue->WaitFence();}
public:
virtual RenderCmdBuffer *BeginRender()override
{
//std::cout<<"Begin Render frame="<<current_frame<<std::endl;
return rtd_list[current_frame].BeginRender(GetDescriptorBinding());
}
virtual void EndRender() override
{
//std::cout<<"End Render frame="<<current_frame<<std::endl;
rtd_list[current_frame].EndRender();
}
};//class MultiFrameRenderTarget
VK_NAMESPACE_END

85
inc/hgl/graph/VKRenderTargetSingle.h Normal file
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@@ -0,0 +1,85 @@
#pragma once
#include<hgl/graph/VKRenderTarget.h>
#include<hgl/graph/VKRenderTargetData.h>
VK_NAMESPACE_BEGIN
/**
* 单帧渲染目标
*/
class RenderTarget:public IRenderTarget
{
RenderTargetData *data;
protected:
friend class SwapchainModule;
friend class RenderTargetManager;
RenderTarget(RenderFramework *rf,RenderTargetData *rtd):IRenderTarget(rf,rtd->fbo->GetExtent())
{
data=rtd;
data->cmd_buf->SetDescriptorBinding(GetDescriptorBinding());
}
public:
virtual ~RenderTarget() override
{
if(data)
{
data->Clear();
delete data;
}
}
Framebuffer * GetFramebuffer ()override{return data->fbo;}
RenderPass * GetRenderPass ()override{return data->fbo->GetRenderPass();}
uint32_t GetColorCount ()override{return data->color_count;}
bool hasDepth ()override{return data->depth_texture;}
Texture2D * GetColorTexture (const int index=0) override{return data->GetColorTexture(index);}
Texture2D * GetDepthTexture () override{return data->depth_texture;}
public: // Command Buffer
DeviceQueue * GetQueue ()override{return data->queue;}
Semaphore * GetRenderCompleteSemaphore()override{return data->render_complete_semaphore;}
RenderCmdBuffer * GetRenderCmdBuffer ()override{return data->cmd_buf;}
virtual bool Submit (Semaphore *wait_sem)override
{
if(!data)
return(false);
return data->Submit(wait_sem);
}
bool WaitQueue ()override{return data->queue->WaitQueue();}
bool WaitFence ()override{return data->queue->WaitFence();}
public:
virtual RenderCmdBuffer *BeginRender()override
{
if(!data)
return(nullptr);
return data->BeginRender(GetDescriptorBinding());
}
virtual void EndRender() override
{
if(!data)
return;
data->EndRender();
}
};//class RenderTarget
VK_NAMESPACE_END

35
inc/hgl/graph/VKRenderTargetSwapchain.h Normal file
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@@ -0,0 +1,35 @@
#pragma once
#include<hgl/graph/VKRenderTargetMultiFrame.h>
VK_NAMESPACE_BEGIN
/**
* 交换链专用渲染目标
*/
class SwapchainRenderTarget:public MultiFrameRenderTarget
{
Swapchain *swapchain;
PresentInfo present_info;
Semaphore *present_complete_semaphore=nullptr;
private:
SwapchainRenderTarget(RenderFramework *rf,Swapchain *sc,Semaphore *pcs,RenderTargetData *rtdl);
friend class SwapchainModule;
friend class RenderTargetManager;
public:
~SwapchainRenderTarget() override;
public:
bool NextFrame ()override; ///<获取下一帧的索引
bool Submit ()override; ///<提交当前帧的渲染,交推送到前台
};//class SwapchainRenderTarget:public MultiFrameRenderTarget
VK_NAMESPACE_END

23
inc/hgl/graph/VKRenderable.h
View File

@@ -12,7 +12,7 @@ VK_NAMESPACE_BEGIN
* 原始图元数据缓冲区<Br>
* 提供在渲染之前的数据绑定信息
*/
struct PrimitiveDataBuffer
struct PrimitiveDataBuffer:public Comparator<PrimitiveDataBuffer>
{
uint32_t vab_count;
VkBuffer * vab_list;
@@ -32,14 +32,14 @@ public:
PrimitiveDataBuffer(const uint32_t,IndexBuffer *,VertexDataManager *_v=nullptr);
~PrimitiveDataBuffer();
const bool Comp(const PrimitiveDataBuffer *pdb)const;
const int compare(const PrimitiveDataBuffer &pdb)const override;
};//struct PrimitiveDataBuffer
/**
* 原始图元渲染数据<Br>
* 提供在渲染时的数据
*/
struct PrimitiveRenderData
struct PrimitiveRenderData:public ComparatorData<PrimitiveRenderData>
{
//因为要VAB是流式访问所以我们这个结构会被用做排序依据
//也因此把vertex_offset放在最前面
@@ -59,9 +59,6 @@ public:
vertex_offset =vo;
first_index =fi;
}
CompOperatorMemcmp(const PrimitiveRenderData &);
CompOperatorMemcmpPointer(PrimitiveRenderData);
};
/**
@@ -103,6 +100,20 @@ public:
const PrimitiveDataBuffer *GetDataBuffer ()const{return primitive_data_buffer;}
const PrimitiveRenderData *GetRenderData ()const{return primitive_render_data;}
public:
bool ChangeMaterialInstance(MaterialInstance *mi)
{
if(!mi)
return(false);
if(mi->GetMaterial()!=mat_inst->GetMaterial()) //不能换母材质
return(false);
mat_inst=mi;
return(true);
}
};//class Renderable
Renderable *CreateRenderable(Primitive *,MaterialInstance *,Pipeline *);

2
inc/hgl/graph/VKShaderModule.h
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@@ -3,7 +3,7 @@
#include<hgl/graph/VK.h>
#include<hgl/graph/VKVertexInputLayout.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
VK_NAMESPACE_BEGIN

31
inc/hgl/graph/VKSwapchain.h
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@@ -1,10 +1,22 @@
#ifndef HGL_GRAPH_VULKAN_SWAP_CHAIN_INCLUDE
#define HGL_GRAPH_VULKAN_SWAP_CHAIN_INCLUDE
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/graph/VKTexture.h>
#include<hgl/type/List.h>
VK_NAMESPACE_BEGIN
struct SwapchainImage
{
Texture2D * color =nullptr;
Texture2D * depth =nullptr;
Framebuffer * fbo =nullptr;
RenderCmdBuffer * cmd_buf =nullptr;
public:
~SwapchainImage();
};//struct SwapchainImage
struct Swapchain
{
public:
@@ -12,19 +24,18 @@ public:
VkDevice device =VK_NULL_HANDLE;
VkExtent2D extent;
VkSurfaceTransformFlagBitsKHR transform;
VkSwapchainKHR swap_chain =VK_NULL_HANDLE;
VkSurfaceFormatKHR surface_format {};
VkFormat depth_format =VK_FORMAT_UNDEFINED;
uint32_t color_count =0;
uint32_t image_count =0;
Texture2D ** sc_color =nullptr;
Texture2D * sc_depth =nullptr;
Framebuffer ** sc_fbo =nullptr;
SwapchainImage * sc_image =nullptr;
public:
virtual ~Swapchain();
};//struct Swapchain
VK_NAMESPACE_END
#endif//HGL_GRAPH_VULKAN_SWAP_CHAIN_INCLUDE

17
inc/hgl/graph/VKTexture.h
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@@ -11,15 +11,23 @@ VK_NAMESPACE_BEGIN
BitmapData *LoadBitmapFromFile(const OSString &filename);
using TextureID=int;
class TextureManager;
class Texture
{
protected:
VkDevice device;
TextureManager *manager;
TextureID texture_id;
TextureData *data;
public:
TextureManager * GetManager () {return manager;}
const TextureID GetID ()const noexcept {return texture_id;}
TextureData * GetData () {return data;}
VkDeviceMemory GetDeviceMemory () {return data?(data->memory?data->memory->operator VkDeviceMemory():VK_NULL_HANDLE):VK_NULL_HANDLE;}
@@ -40,9 +48,10 @@ public:
public:
Texture(VkDevice dev,TextureData *td)
Texture(TextureManager *tm,const TextureID &id,TextureData *td)
{
device=dev;
manager=tm;
texture_id=id;
data=td;
}
@@ -95,7 +104,7 @@ class TextureCube:public Texture
{
public:
TextureCube(VkDevice dev,TextureData *td):Texture(dev,td){}
using Texture::Texture;
~TextureCube()=default;
static VkImageViewType GetImageViewType(){return VK_IMAGE_VIEW_TYPE_CUBE;}

4
inc/hgl/graph/font/Font.h
View File

@@ -12,7 +12,7 @@ namespace hgl
/**
* 字体信息
*/
struct Font
struct Font:public ComparatorData<Font>
{
os_char name[MAX_FONT_NAME_LENGTH]; ///<字体名称
@@ -28,8 +28,6 @@ namespace hgl
Font();
Font(const os_char *,int,int,bool b=false,bool i=false,bool=true);
CompOperatorMemcmp(const Font &); ///<比较操作符重载
};//struct Font
}//namespace graph
}//namespace hgl

4
inc/hgl/graph/font/FontSource.h
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@@ -3,7 +3,7 @@
#include<hgl/type/StrChar.h>
#include<hgl/type/Map.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
#include<hgl/graph/font/Font.h>
#include<hgl/type/UnicodeBlocks.h>
@@ -71,7 +71,7 @@ namespace hgl
{
protected:
SortedSets<void *> ref_object;
SortedSet<void *> ref_object;
ObjectMap<u32char,CLA> cla_cache;

6
inc/hgl/graph/font/TextPrimitive.h
View File

@@ -24,10 +24,10 @@ namespace hgl
friend class TextLayout;
friend class TextRender;
SortedSets<u32char> chars_sets;
SortedSet<u32char> chars_sets;
const SortedSets<u32char> &GetCharsSets()const{return chars_sets;}
void SetCharsSets(const SortedSets<u32char> &sl){chars_sets=sl;}
const SortedSet<u32char> &GetCharsSets()const{return chars_sets;}
void SetCharsSets(const SortedSet<u32char> &sl){chars_sets=sl;}
void ClearCharsSets(){chars_sets.Clear();}
private:

4
inc/hgl/graph/font/TextRender.h
View File

@@ -54,9 +54,9 @@ namespace hgl
public:
TextPrimitive *CreatePrimitive();
TextPrimitive *CreatePrimitive(const UTF16String &str);
TextPrimitive *CreatePrimitive(const U16String &str);
bool Layout(TextPrimitive *tr,const UTF16String &str);
bool Layout(TextPrimitive *tr,const U16String &str);
Renderable *CreateRenderable(TextPrimitive *text_primitive);

4
inc/hgl/graph/font/TileFont.h
View File

@@ -24,7 +24,7 @@ namespace hgl
TileResPool to_res;
SortedSets<u32char> not_bitmap_chars;
SortedSet<u32char> not_bitmap_chars;
public:
@@ -37,7 +37,7 @@ namespace hgl
TileFont(TileData *td,FontSource *fs);
virtual ~TileFont();
bool Registry(TileUVFloatMap &,SortedSets<u32char> &chars_sets); ///<注册要使用的字符
bool Registry(TileUVFloatMap &,SortedSet<u32char> &chars_sets); ///<注册要使用的字符
void Unregistry(const List<u32char> &); ///<注销要使用的字符
};//class TileFont
}//namespace graph

68
inc/hgl/graph/module/GraphModule.h Normal file
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@@ -0,0 +1,68 @@
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/type/TypeInfo.h>
VK_NAMESPACE_BEGIN
class TextureManager;
class RenderTargetManager;
class RenderPassManager;
class GraphModule
{
RenderFramework *render_framework;
public:
RenderFramework * GetRenderFramework ()const{return render_framework;} ///<取得渲染框架
GPUDevice * GetDevice (); ///<取得GPU设备
VkDevice GetVkDevice ()const; ///<取得VkDevice
const GPUPhysicalDevice * GetPhysicalDevice ()const; ///<取得物理设备
GPUDeviceAttribute *GetDeviceAttribute ()const; ///<取得设备属性
VkPipelineCache GetPipelineCache ()const; ///<取得PipelineCache
public:
virtual void OnResize(const VkExtent2D &){}; ///<窗口大小改变
public:
GraphModule(RenderFramework *rf){render_framework=rf;}
virtual ~GraphModule()=default;
virtual const size_t GetTypeHash()const noexcept=0;
virtual const AnsiString &GetName()const=0;
};//class GraphModule
template<typename T,typename BASE> class GraphModuleInherit:public BASE
{
AnsiString manager_name;
public:
const size_t GetTypeHash()const noexcept override
{
return typeid(T).hash_code();
}
const AnsiString &GetName()const override
{
return manager_name;
}
public:
GraphModuleInherit(RenderFramework *rf,const AnsiString &name):BASE(rf)
{
manager_name=name;
}
virtual ~GraphModuleInherit()=default;
};//class GraphModuleInherit
#define GRAPH_MODULE_CLASS(class_name) class class_name:public GraphModuleInherit<class_name,GraphModule>
#define GRAPH_MODULE_CONSTRUCT(class_name) class_name::class_name(RenderFramework *rf):GraphModuleInherit<class_name,GraphModule>(rf,#class_name)
VK_NAMESPACE_END

56
inc/hgl/graph/module/GraphModuleManager.h Normal file
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@@ -0,0 +1,56 @@
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/type/Map.h>
VK_NAMESPACE_BEGIN
class GraphModuleManager
{
RenderFramework *render_framework;
protected:
List<GraphModule *> module_list;
Map<size_t,GraphModule *> module_map;
public:
GraphModuleManager(RenderFramework *rf){render_framework=rf;}
virtual ~GraphModuleManager();
public:
RenderFramework * GetRenderFramework ()const{return render_framework;} ///<取得渲染框架
GPUDevice * GetDevice ()const; ///<取得GPU设备
public:
GraphModule * Get(const size_t type_hash) {return GetObjectFromList(module_map,type_hash);} ///<取得指定类型的模块
template<typename T>
T * Get() {return((T *)Get(typeid(T).hash_code()));} ///<取得指定类型的模块
bool Contains(const size_t &type_hash)const {return module_map.ContainsKey(type_hash);} ///<确认是否包含指定类型的模块
template<typename T>
bool Contains()const{return Contains(typeid(T).hash_code());} ///<确认是否包含指定类型的模块
bool Registry(GraphModule *); ///<注册一个模块
bool Unregistry(GraphModule *); ///<注销一个模块
template<typename T>
T *GetOrCreate() ///<注册一个模块
{
if(Contains<T>())
return Get<T>();
T *result=new T(render_framework);
Registry(result);
return result;
}
};//class GraphModuleManager
VK_NAMESPACE_END

27
inc/hgl/graph/module/RenderModule.h Normal file
View File

@@ -0,0 +1,27 @@
#pragma once
#include<hgl/graph/module/GraphModule.h>
#include<hgl/type/Size2.h>
VK_NAMESPACE_BEGIN
/**
* 渲染模块基类
*/
class RenderModule:public GraphModule
{
public:
NO_COPY_NO_MOVE(RenderModule)
using GraphModule::GraphModule;
virtual ~RenderModule()=default;
virtual bool OnFrameRender(const double,RenderCmdBuffer *)=0; ///<帧绘制回调
};//class RenderModule
#define RENDER_MODULE_CLASS(class_name) class class_name:public GraphModuleInherit<class_name,RenderModule>
#define RENDER_MODULE_CONSTRUCT(class_name) class_name::class_name(GPUDevice *dev):GraphModuleInherit<class_name,RenderModule>(dev,#class_name)
VK_NAMESPACE_END

28
inc/hgl/graph/VKDeviceRenderPassManage.h → inc/hgl/graph/module/RenderPassManager.h
View File

@@ -1,28 +1,30 @@
#ifndef HGL_VULKAN_DEVICE_RENDERPASS_MANAGE_INCLUDE
#define HGL_VULKAN_DEVICE_RENDERPASS_MANAGE_INCLUDE
#pragma once
#include<hgl/graph/VK.h>
#include<hgl/graph/module/GraphModule.h>
#include<hgl/type/Map.h>
#include<hgl/util/hash/Hash.h>
VK_NAMESPACE_BEGIN
using RenderPassHASHCode=util::HashCodeSHA1LE;
class DeviceRenderPassManage
using RenderPassHASHCode=util::HashCode<128/8>;
inline util::Hash *CreateRenderPassHash()
{
VkDevice device;
VkPipelineCache pipeline_cache;
return util::CreateHash(util::HASH::xxH3_128);
}
GRAPH_MODULE_CLASS(RenderPassManager)
{
util::Hash *hash;
Map<RenderPassHASHCode,RenderPass *> RenderPassList;
private:
friend class GPUDevice;
RenderPassManager(RenderFramework *);
~RenderPassManager();
DeviceRenderPassManage(VkDevice,VkPipelineCache);
~DeviceRenderPassManage();
friend class GraphModuleManager;
private:
@@ -31,7 +33,9 @@ private:
const List<VkSubpassDependency> &dependency,
const RenderbufferInfo *);
public:
RenderPass * AcquireRenderPass( const RenderbufferInfo *,const uint subpass_count=2);
};//class DeviceRenderPassManage
};//class RenderPassManager
VK_NAMESPACE_END
#endif//HGL_VULKAN_DEVICE_RENDERPASS_MANAGE_INCLUDE

33
inc/hgl/graph/module/RenderTargetManager.h Normal file
View File

@@ -0,0 +1,33 @@
#pragma once
#include<hgl/graph/module/GraphModule.h>
VK_NAMESPACE_BEGIN
class TextureManager;
class RenderPassManager;
GRAPH_MODULE_CLASS(RenderTargetManager)
{
TextureManager *tex_manager;
RenderPassManager *rp_manager;
public:
RenderTargetManager(RenderFramework *,TextureManager *tm,RenderPassManager *rpm);
virtual ~RenderTargetManager()=default;
public: //FrameBuffer相关
Framebuffer *CreateFBO(RenderPass *rp,ImageView **color_list,const uint image_count,ImageView *depth);
// Framebuffer *CreateFBO(RenderPass *,List<ImageView *> &color,ImageView *depth);
Framebuffer *CreateFBO(RenderPass *,ImageView *color,ImageView *depth);
Framebuffer *CreateFBO(RenderPass *,ImageView *);
public:
RenderTarget *CreateRT( const FramebufferInfo *fbi,RenderPass *,const uint32_t fence_count=1);
RenderTarget *CreateRT( const FramebufferInfo *fbi,const uint32_t fence_count=1);
};//class RenderTargetManager
VK_NAMESPACE_END

46
inc/hgl/graph/module/SwapchainModule.h Normal file
View File

@@ -0,0 +1,46 @@
#pragma once
#include<hgl/graph/module/GraphModule.h>
VK_NAMESPACE_BEGIN
GRAPH_MODULE_CLASS(SwapchainModule)
{
TextureManager * tex_manager =nullptr;
RenderTargetManager * rt_manager =nullptr;
RenderPassManager * rp_manager =nullptr;
RenderPass * sc_render_pass =nullptr;
SwapchainRenderTarget * sc_render_target=nullptr;
protected:
bool CreateSwapchainFBO(Swapchain *);
Swapchain *CreateSwapchain();
bool CreateSwapchainRenderTarget();
public:
virtual void OnResize(const VkExtent2D &)override; ///<窗口大小改变
public:
SwapchainModule(RenderFramework *,TextureManager *tm,RenderTargetManager *rtm,RenderPassManager *rpm);
virtual ~SwapchainModule();
// RenderCmdBuffer *BeginRender();
//void EndRender();
public:
RenderPass * GetRenderPass ()const{return sc_render_pass;}
bool GetSwapchainSize(VkExtent2D *)const;
SwapchainRenderTarget * GetRenderTarget ()const{return sc_render_target;}
bool AcquireNextImage()const;
};//class SwapchainModule:public GraphModule
VK_NAMESPACE_END

126
inc/hgl/graph/module/TextureManager.h Normal file
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@@ -0,0 +1,126 @@
#pragma once
#include<hgl/graph/module/GraphModule.h>
#include<hgl/type/SortedSet.h>
#include<hgl/type/IDName.h>
#include<hgl/type/RectScope.h>
#include<hgl/type/object/ObjectBaseInfo.h>
#include<hgl/graph/ImageRegion.h>
#include<hgl/graph/VKTexture.h>
VK_NAMESPACE_BEGIN
GRAPH_MODULE_CLASS(TextureManager)
{
DeviceQueue *texture_queue=nullptr;
TextureCmdBuffer *texture_cmd_buf=nullptr;
private:
TextureID texture_serial=0;
const TextureID AcquireID(){return texture_serial++;} ///<取得一个新的纹理ID
private:
SortedSet<VkImage> image_set;
SortedSet<Texture *> texture_set; ///<纹理合集
Map<TextureID,Texture *> texture_by_id;
Map<OSString,Texture *> texture_by_filename;
const TextureID Add(Texture *);
const TextureID Add(Texture *,const OSString &);
public:
TextureManager(RenderFramework *rf);
virtual ~TextureManager();
const VkFormatProperties GetFormatProperties(const VkFormat)const;
public: //Buffer
DeviceBuffer *CreateTransferSourceBuffer(const VkDeviceSize,const void *data_ptr=nullptr);
private: //Image
VkImage CreateImage (VkImageCreateInfo *);
void DestroyImage (VkImage);
private: //texture
bool CopyBufferToImage (const CopyBufferToImageInfo *info,VkPipelineStageFlags destinationStage);
bool CopyBufferToImage (Texture *,DeviceBuffer *buf,const VkBufferImageCopy *,const int count,const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags);//=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool CopyBufferToImage2D (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic_list,const int bic_count, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic_list, bic_count, 0,1,dstStage);}
bool CopyBufferToImage2D (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic, 1, 0,1,dstStage);}
bool CopyBufferToImageCube (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic_list,const int bic_count, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic_list, bic_count, 0,6,dstStage);}
bool CopyBufferToImageCube (Texture *tex,DeviceBuffer *buf,const VkBufferImageCopy *bic, VkPipelineStageFlags dstStage){return CopyBufferToImage(tex,buf,bic, 1, 0,6,dstStage);}
bool CommitTexture2D (Texture2D *,DeviceBuffer *buf,VkPipelineStageFlags stage);
bool CommitTexture2DMipmaps (Texture2D *,DeviceBuffer *buf,const VkExtent3D &,uint32_t);
bool CommitTextureCube (TextureCube *,DeviceBuffer *buf,const uint32_t mipmaps_zero_bytes,VkPipelineStageFlags stage);
bool CommitTextureCubeMipmaps (TextureCube *,DeviceBuffer *buf,const VkExtent3D &,uint32_t);
bool SubmitTexture (const VkCommandBuffer *cmd_bufs,const uint32_t count=1); ///<提交纹理处理到队列
public: //Format
bool CheckFormatSupport(const VkFormat,const uint32_t bits,ImageTiling tiling=ImageTiling::Optimal)const;
bool CheckTextureFormatSupport(const VkFormat fmt,ImageTiling tiling=ImageTiling::Optimal)const{return CheckFormatSupport(fmt,VK_FORMAT_FEATURE_SAMPLED_IMAGE_BIT,tiling);}
bool CheckColorAttachmentFormatSupport(const VkFormat fmt)const{return CheckFormatSupport(fmt,VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT,ImageTiling::Optimal);}
bool CheckDepthStencilAttachFormatSupport(const VkFormat fmt)const{return CheckFormatSupport(fmt,VK_FORMAT_FEATURE_DEPTH_STENCIL_ATTACHMENT_BIT,ImageTiling::Optimal);}
public: //Create/Chagne
Texture2D *CreateTexture2D(TextureData *);
Texture2D *CreateTexture2D(TextureCreateInfo *ci);
Texture2DArray *CreateTexture2DArray(TextureData *);
Texture2DArray *CreateTexture2DArray(TextureCreateInfo *ci);
Texture2DArray *CreateTexture2DArray(const uint32_t w,const uint32_t h,const uint32 l,const VkFormat fmt,const bool mipmaps);
TextureCube *CreateTextureCube(TextureData *);
TextureCube *CreateTextureCube(TextureCreateInfo *ci);
void Clear(TextureCreateInfo *);
bool ChangeTexture2D(Texture2D *,DeviceBuffer *buf, const List<Image2DRegion> &,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2D(Texture2D *,DeviceBuffer *buf, const RectScope2ui &, VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2D(Texture2D *,const void *data,const VkDeviceSize size, const RectScope2ui &, VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
// bool ChangeTexture2DArray(Texture2DArray *,DeviceBuffer *buf, const List<Image2DRegion> &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2DArray(Texture2DArray *,DeviceBuffer *buf, const RectScope2ui &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
bool ChangeTexture2DArray(Texture2DArray *,const void *data,const VkDeviceSize size,const RectScope2ui &, const uint32_t base_layer,const uint32_t layer_count,VkPipelineStageFlags=VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT);
public:
void Release(Texture *);
void Destory(Texture *tex)
{
if(!tex)return;
Release(tex);
delete tex;
}
public: // Load
Texture2D * LoadTexture2D(const OSString &,bool auto_mipmaps=false);
TextureCube * LoadTextureCube(const OSString &,bool auto_mipmaps=false);
Texture2DArray * CreateTexture2DArray(const AnsiString &name,const uint32_t width,const uint32_t height,const uint32_t layer,const VkFormat &fmt,bool auto_mipmaps=false);
bool LoadTexture2DToArray(Texture2DArray *,const uint32_t layer,const OSString &);
public: //TileData
TileData *CreateTileData(const VkFormat video_format,const uint width,const uint height,const uint count); ///<创建一个Tile数据集
};//class TextureManager
VK_NAMESPACE_END

0
inc/hgl/graph/module/VkModuleDebugUtil.h Normal file
View File

2
inc/hgl/graph/mtl/BlinnPhong.h
View File

@@ -1,7 +1,7 @@
#pragma once
#include<hgl/graph/mtl/StdMaterial.h>
#include<hgl/graph/mtl/ShaderBuffer.h>
#include<hgl/graph/mtl/ShaderBufferSource.h>
#include<hgl/math/Vector.h>
STD_MTL_NAMESPACE_BEGIN
namespace blinnphong

8
inc/hgl/graph/mtl/Material2DCreateConfig.h
View File

@@ -6,7 +6,7 @@
#include<hgl/graph/VertexAttrib.h>
STD_MTL_NAMESPACE_BEGIN
struct Material2DCreateConfig:public MaterialCreateConfig
struct Material2DCreateConfig:public MaterialCreateConfig,public Comparator<Material2DCreateConfig>
{
CoordinateSystem2D coordinate_system; ///<使用的坐标系
@@ -32,9 +32,9 @@ public:
position_format=VAT_VEC2;
}
int Comp(const Material2DCreateConfig &cfg)const
const int compare(const Material2DCreateConfig &cfg)const override
{
int off=MaterialCreateConfig::Comp(cfg);
int off=MaterialCreateConfig::compare(cfg);
if(off)return off;
@@ -48,8 +48,6 @@ public:
return off;
}
CompOperator(const Material2DCreateConfig &,Comp)
};//struct Material2DCreateConfig:public MaterialCreateConfig
MaterialCreateInfo *CreateVertexColor2D(const Material2DCreateConfig *);

58
inc/hgl/graph/mtl/Material3DCreateConfig.h
View File

@@ -5,58 +5,8 @@
#include<hgl/graph/VertexAttrib.h>
STD_MTL_NAMESPACE_BEGIN
enum class LightingModel:uint8
{
Unlit,
Gizmo, ///<Gizmo专用(Blinnphong的特定版本内置假的太阳光方向、高光系数等使其不需要外部UBO传入)
Blinnphong, ///<Blinnphong光照模型
FakePBR, ///<假PBR(使用Blinnphong+HalfLambert模拟)
MicroPBR, ///<微型PBR(只有BaseColor/Normal/Metallic/Roughness四个基础数据的PBR)
WebPBR, ///<Khronos为WebGL提供的PBR
FilamentPBR, ///<Filament引擎所使用的PBR
AMDPBR, ///<AMD Caulrdon框架所使用的PBR
BlenderPBR, ///<Blender所使用的PBR
ENUM_CLASS_RANGE(Unlit,BlenderPBR)
};
constexpr const char *LightingModelName[]=
{
"Unlit",
"Gizmo",
"Blinnphong",
"FakePBR",
"MicroPBR",
"WebPBR",
"FilamentPBR",
"AMDPBR",
"BlenderPBR"
};
/**
* 天光来源
*/
enum class SkyLightSource:uint8
{
PureColor, ///<纯色
Simplest, ///<极简(一行代码)
Cubemap, ///<立方体贴图
IBL, ///<IBL立方体贴图
ENUM_CLASS_RANGE(PureColor,IBL)
};
struct Material3DCreateConfig:public MaterialCreateConfig
struct Material3DCreateConfig:public MaterialCreateConfig,public Comparator<Material3DCreateConfig>
{
bool camera; ///<包含摄像机矩阵信息
@@ -82,9 +32,9 @@ public:
// reverse_depth=false;
}
int Comp(const Material3DCreateConfig &cfg)const
const int compare(const Material3DCreateConfig &cfg)const override
{
int off=MaterialCreateConfig::Comp(cfg);
int off=MaterialCreateConfig::compare(cfg);
if(off)return off;
@@ -98,8 +48,6 @@ public:
return off;
}
CompOperator(const Material3DCreateConfig &,Comp)
};//struct Material3DCreateConfig:public MaterialCreateConfig
MaterialCreateInfo *CreateVertexColor3D(const Material3DCreateConfig *);

6
inc/hgl/graph/mtl/MaterialConfig.h
View File

@@ -13,7 +13,7 @@ class MaterialCreateInfo;
/**
* 材质配置结构
*/
struct MaterialCreateConfig
struct MaterialCreateConfig:public Comparator<MaterialCreateConfig>
{
const GPUDeviceAttribute *dev_attr;
@@ -42,7 +42,7 @@ public:
prim=p;
}
virtual int Comp(const MaterialCreateConfig &cfg)const
const int compare(const MaterialCreateConfig &cfg)const override
{
int off;
@@ -59,8 +59,6 @@ public:
return off;
}
CompOperator(const MaterialCreateConfig &,Comp)
};//struct MaterialCreateConfig
STD_MTL_NAMESPACE_END
#endif//HGL_GRAPH_MTL_CONFIG_INCLUDE

18
inc/hgl/graph/mtl/ShaderBuffer.h
View File

@@ -1,18 +0,0 @@
#ifndef HGL_GRAPH_MTL_SHADER_BUFFER_INCLUDE
#define HGL_GRAPH_MTL_SHADER_BUFFER_INCLUDE
#include<hgl/type/DataType.h>
namespace hgl
{
namespace graph
{
struct ShaderBufferSource
{
const char *struct_name;
const char *name;
const char *codes;
};
}//namespace graph
}//namespace hgl
#endif//HGL_GRAPH_MTL_SHADER_BUFFER_INCLUDE

11
inc/hgl/graph/mtl/ShaderBufferSource.h Normal file
View File

@@ -0,0 +1,11 @@
#pragma once
namespace hgl::graph
{
struct ShaderBufferSource
{
const char *struct_name;
const char *name;
const char *codes;
};
}//namespace hgl::graph

151
inc/hgl/graph/mtl/ShaderVariableType.h
View File

@@ -6,12 +6,9 @@
#include<hgl/graph/VKInterpolation.h>
#include<hgl/graph/VKSamplerType.h>
#include<hgl/graph/VKImageType.h>
#include<hgl/CompOperator.h>
#include<hgl/Comparator.h>
namespace hgl
{
namespace graph
{
VK_NAMESPACE_BEGIN
enum class ShaderVariableBaseType:uint8
{
Scalar=0,
@@ -28,7 +25,7 @@ namespace hgl
#pragma pack(push,1)
struct ShaderVariableType
struct ShaderVariableType:public Comparator<ShaderVariableType>
{
union
{
@@ -156,91 +153,9 @@ namespace hgl
array_size=count;
}
const bool Check()const
{
if(!RangeCheck(base_type))return(false);
const bool Check()const;
RANGE_CHECK_RETURN_FALSE(base_type)
if(base_type==SVBaseType::Scalar)
return(true);
if(base_type==SVBaseType::Vector)
{
if(vector.vec_size<2||vector.vec_size>4)return(false);
return(true);
}
if(base_type==SVBaseType::Matrix)
{
if(matrix.m==0)
{
if(matrix.n<2||matrix.n>4)return(false);
}
else
{
if(matrix.n<2||matrix.n>4)return(false);
if(matrix.m<2||matrix.m>4)return(false);
}
return(true);
}
if(base_type==SVBaseType::Sampler)
return RangeCheck(sampler.type);
if(base_type==SVBaseType::Image)
return RangeCheck(image.type);
return(true);
}
int Comp(const ShaderVariableType &svt)const
{
int off=(int)base_type-(int)svt.base_type;
if(off)return(off);
if(base_type==SVBaseType::Scalar)
return int(scalar.type)-int(svt.scalar.type);
if(base_type==SVBaseType::Vector)
{
off=int(vector.type)-int(svt.vector.type);
if(off)return(off);
off=vector.vec_size-svt.vector.vec_size;
if(off)return(off);
return int(vector.type)-int(svt.vector.type);
}
if(base_type==SVBaseType::Matrix)
{
off=int(matrix.type)-int(svt.matrix.type);
if(off)return(off);
off=matrix.n-svt.matrix.n;
if(off)return(off);
return matrix.m-svt.matrix.m;
}
if(base_type==SVBaseType::Sampler)
return int(sampler.type)-int(svt.sampler.type);
if(base_type==SVBaseType::Image)
return int(image.type)-int(svt.image.type);
return 0;
}
CompOperator(const ShaderVariableType &,Comp)
const int compare(const ShaderVariableType &svt)const override;
const char *GetTypename()const;
@@ -254,29 +169,7 @@ namespace hgl
return Check();
}
const bool From(const VAType &vat,const uint16 count=1)
{
array_size=count;
if(vat.vec_size==1)
{
base_type=SVBaseType::Scalar;
scalar.type=vat.basetype;
return(true);
}
else if(vat.vec_size<=4)
{
base_type=SVBaseType::Vector;
vector.type=vat.basetype;
vector.vec_size=vat.vec_size;
return(true);
}
return(false);
}
const bool From(const VAType &vat,const uint16 count=1);
static const ShaderVariableType Scalar(const VABaseType &vabt,const uint count=1)
{
@@ -383,7 +276,7 @@ namespace hgl
using SVList=List<ShaderVariable>;
struct ShaderVariableArray
struct ShaderVariableArray:public Comparator<ShaderVariableArray>
{
uint count;
@@ -406,33 +299,30 @@ namespace hgl
Clear();
}
int Comp(const ShaderVariableArray *sva)const
const int compare(const ShaderVariableArray &sva)const override
{
if(!sva)
return 1;
int off=count-sva->count;
int off=count-sva.count;
if(off)return off;
for(uint i=0;i<count;i++)
{
off=items[i].location-sva->items[i].location;
off=items[i].location-sva.items[i].location;
if(off)
return off;
if(items[i].type.ToCode()>sva->items[i].type.ToCode())
if(items[i].type.ToCode()>sva.items[i].type.ToCode())
return 1;
//ToCode返回的是uint64可能差值超大所以不能直接用-的结果
if(items[i].type.ToCode()<sva->items[i].type.ToCode())
if(items[i].type.ToCode()<sva.items[i].type.ToCode())
return -1;
off=int(items[i].interpolation)-int(sva->items[i].interpolation);
off=int(items[i].interpolation)-int(sva.items[i].interpolation);
if(off)
return off;
off=hgl::strcmp(items[i].name,sva->items[i].name);
off=hgl::strcmp(items[i].name,sva.items[i].name);
if(off)
return off;
}
@@ -440,11 +330,6 @@ namespace hgl
return 0;
}
int Comp(const ShaderVariableArray &sva)const{return Comp(&sva);}
CompOperator(const ShaderVariableArray *,Comp)
CompOperator(const ShaderVariableArray &,Comp)
bool Init(const uint c=0)
{
if(items)
@@ -464,7 +349,7 @@ namespace hgl
return(true);
}
bool IsMember(const char *name)const
bool Contains(const char *name)const
{
if(count<=0)
return(false);
@@ -478,7 +363,7 @@ namespace hgl
bool Add(ShaderVariable &sv)
{
if(IsMember(sv.name))
if(Contains(sv.name))
return(false);
sv.location=count;
@@ -552,5 +437,5 @@ namespace hgl
};//struct ShaderVariableArray
using SVArray=ShaderVariableArray;
}//namespace graph
}//namespace hgl
VK_NAMESPACE_END

15
inc/hgl/graph/mtl/StdMaterial.h
View File

@@ -2,21 +2,19 @@
#include<hgl/type/String.h>
#define STD_MTL_NAMESPACE_BEGIN namespace hgl{namespace graph{namespace mtl{
#define STD_MTL_NAMESPACE_END }}}
#define STD_MTL_NAMESPACE_BEGIN namespace hgl::graph::mtl{
#define STD_MTL_NAMESPACE_END }
#define STD_MTL_NAMESPACE hgl::graph::mtl
#define STD_MTL_NAMESPACE_USING using namespace STD_MTL_NAMESPACE;
#define STD_MTL_FUNC_NAMESPACE_BEGIN namespace hgl{namespace graph{namespace mtl{namespace func{
#define STD_MTL_FUNC_NAMESPACE_END }}}}
#define STD_MTL_FUNC_NAMESPACE_BEGIN namespace hgl::graph::mtl::func{
#define STD_MTL_FUNC_NAMESPACE_END }
#define STD_MTL_FUNC_NAMESPACE hgl::graph::mtl::func
#define STD_MTL_FUNC_NAMESPACE_USING using namespace STD_MTL_FUNC_NAMESPACE;
namespace hgl
{
namespace graph
namespace hgl::graph
{
class ShaderCreateInfoVertex;
class ShaderCreateInfoGeometry;
@@ -55,5 +53,4 @@ namespace hgl
virtual MaterialCreateInfo *Create();
};//class StdMaterial
}//namespace mtl
}//namespace graph
}//namespace hgl
}//namespace hgl::graph

2
inc/hgl/graph/mtl/UBOCommon.h
View File

@@ -1,7 +1,7 @@
#pragma once
#include<hgl/graph/mtl/StdMaterial.h>
#include<hgl/graph/mtl/ShaderBuffer.h>
#include<hgl/graph/mtl/ShaderBufferSource.h>
STD_MTL_NAMESPACE_BEGIN
constexpr const ShaderBufferSource SBS_ViewportInfo=

24
inc/hgl/graph/mtl/UniformBuffer.h
View File

@@ -1,24 +0,0 @@
#pragma once
#include<hgl/graph/mtl/StdMaterial.h>
#include<hgl/graph/mtl/ShaderBuffer.h>
STD_MTL_NAMESPACE_BEGIN
/**
* 所有UBO的基类它即向生成器提供代码也可以为渲染器提供数据
*/
class UniformBuffer
{
private:
ShaderBufferSource *sbs;
public:
virtual const AnsiString &GetStructName ()const{return sbs->struct_name;} ///<取得结构名称
virtual const AnsiString &GetDefaultValueName ()const{return sbs->name;} ///<取得默认变量名称
virtual const AnsiString &GetShaderCodes ()const{return sbs->codes;} ///<取得Shader代码
};//class UniformBuffer
STD_MTL_NAMESPACE_END

4
inc/hgl/gui/Layout.h
View File

@@ -2,7 +2,7 @@
#define HGL_GUI_LAYOUT_INCLUDE
#include<hgl/gui/Widget.h>
#include<hgl/type/SortedSets.h>
#include<hgl/type/SortedSet.h>
namespace hgl
{
namespace gui
@@ -14,7 +14,7 @@ namespace hgl
{
protected:
SortedSets<Widget *> widgets_set;
SortedSet<Widget *> widgets_set;
public:

7
inc/hgl/shadergen/MaterialCreateInfo.h
View File

@@ -7,10 +7,10 @@
#include<hgl/shadergen/ShaderCreateInfoMap.h>
#include<hgl/graph/RenderTargetOutputConfig.h>
#include<hgl/graph/mtl/MaterialConfig.h>
#include<hgl/graph/mtl/ShaderBuffer.h>
#include<hgl/graph/mtl/ShaderBufferSource.h>
#include<hgl/graph/VKSamplerType.h>
namespace hgl{namespace graph
namespace hgl::graph
{
struct GPUDeviceAttribute;
struct UBODescriptor;
@@ -92,5 +92,4 @@ namespace hgl{namespace graph
bool CreateShader();
};//class MaterialCreateInfo
}//namespace mtl
}//namespace graph
}//namespace hgl
}//namespace hgl::graph

4
inc/hgl/shadergen/MaterialDescriptorInfo.h
View File

@@ -1,7 +1,7 @@
#pragma once
#include<hgl/graph/VKShaderDescriptorSet.h>
#include<hgl/graph/mtl/ShaderBuffer.h>
#include<hgl/graph/mtl/ShaderBufferSource.h>
#include<hgl/type/Map.h>
namespace hgl{namespace graph{
@@ -41,7 +41,7 @@ public:
bool hasStruct(const AnsiString &name) const
{
return(struct_map.KeyExist(name));
return(struct_map.ContainsKey(name));
}
const UBODescriptor *AddUBO(uint32_t shader_stage_flag_bits,DescriptorSetType set_type,UBODescriptor *sd);

2
inc/hgl/shadergen/ShaderCreateInfo.h
View File

@@ -96,7 +96,7 @@ public:
void SetMain(const AnsiString &str){main_function=str;}
void SetMain(const char *str,const int len)
{
main_function.SetString(str,len);
main_function.fromString(str,len);
}
const AnsiString &GetOutputStruct()const{return output_struct;}

2
inc/hgl/shadergen/ShaderCreateInfoMap.h
View File

@@ -15,7 +15,7 @@ public:
VkShaderStageFlagBits flag=sc->GetShaderStage();
if(KeyExist(flag))
if(ContainsKey(flag))
return(false);
ObjectMap<VkShaderStageFlagBits,ShaderCreateInfo>::Add(flag,sc);

2
inc/hgl/shadergen/ShaderDescriptorInfo.h
View File

@@ -74,7 +74,7 @@ public:
bool AddInput(I &item){return input.Add(item);}
bool AddOutput(O &item){return output.Add(item);}
bool hasInput(const char *name)const{return input.IsMember(name);} ///<是否有指定输入
bool hasInput(const char *name)const{return input.Contains(name);} ///<是否有指定输入
public:

5
src/CMakeLists.txt
View File

@@ -1,6 +1,7 @@
add_subdirectory(Util)
add_subdirectory(ShaderGen)
add_subdirectory(SceneGraph)
add_subdirectory(Work)
#add_subdirectory(Tools)
add_subdirectory(GUI)
add_subdirectory(JoltPhysics/Build)
#add_subdirectory(GUI)
#add_subdirectory(JoltPhysics/Build)

2
src/GUI/ThemeEngine.cpp
View File

@@ -41,7 +41,7 @@ namespace hgl
{
if(!f)return(false);
if(form_list.KeyExist(f))
if(form_list.ContainsKey(f))
return(false);
Vector2f size=f->GetSize();

2
src/GUI/ThemeForm.cpp
View File

@@ -37,7 +37,7 @@ namespace hgl
bool ThemeForm::BeginRender()
{
if(!cmd_buf->Begin())return(false);
if(!cmd_buf->BindFramebuffer(render_target->GetRenderPass(),render_target->GetFramebuffer()))return(false);
if(!cmd_buf->BindRenderTarget(render_target->GetRenderPass(),render_target->GetFramebuffer()))return(false);
cmd_buf->SetClearColor(0,0,0,0,1.0f);

95
src/SceneGraph/CMakeLists.txt
View File

@@ -36,13 +36,45 @@ SET(GEOMETRY_FILES ${SG_INCLUDE_PATH}/InlineGeometry.h
SOURCE_GROUP("Geometry" FILES ${GEOMETRY_FILES})
SET(LIGHT_FILES ${SG_INCLUDE_PATH}/Light.h)
SET(LIGHT_FILES ${SG_INCLUDE_PATH}/Light.h
${SG_INCLUDE_PATH}/ShadowPolicy.h)
source_group("Light" FILES ${LIGHT_FILES})
SET(SCENE_GRAPH_HEADER ${SG_INCLUDE_PATH}/SceneInfo.h
SET(SGM_HEADER_PATH ${SG_INCLUDE_PATH}/module)
SET(SGM_SOURCE_PATH module)
SET(GRAPH_MODULE_FILES ${SGM_HEADER_PATH}/GraphModule.h
${SGM_HEADER_PATH}/GraphModuleManager.h
${SGM_HEADER_PATH}/RenderPassManager.h
${SGM_HEADER_PATH}/TextureManager.h
${SGM_HEADER_PATH}/RenderTargetManager.h
${SGM_HEADER_PATH}/RenderModule.h
${SGM_HEADER_PATH}/SwapchainModule.h
${SGM_SOURCE_PATH}/GraphModule.cpp
${SGM_SOURCE_PATH}/GraphModuleManager.cpp
${SGM_SOURCE_PATH}/RenderPassManager.cpp
${SGM_SOURCE_PATH}/TextureManager.cpp
${SGM_SOURCE_PATH}/RenderTargetManager.cpp
${SGM_SOURCE_PATH}/SwapChainModule.cpp
)
source_group("Framework\\Module" FILES ${GRAPH_MODULE_FILES})
SET(GRAPH_FRAMEWORK_FILES ${SG_INCLUDE_PATH}/RenderFramework.h
RenderFramework.cpp)
source_group("Framework" FILES ${GRAPH_FRAMEWORK_FILES})
SET(SCENE_GRAPH_HEADER ${SG_INCLUDE_PATH}/SceneManager.h
${SG_INCLUDE_PATH}/SceneNodeAttributes.h
${SG_INCLUDE_PATH}/SceneNode.h
${SG_INCLUDE_PATH}/ShadowPolicy.h
${SG_INCLUDE_PATH}/RenderNode.h
${SG_INCLUDE_PATH}/SceneMatrix.h
${SG_INCLUDE_PATH}/SceneOrient.h
${SG_INCLUDE_PATH}/RenderList.h
${SG_INCLUDE_PATH}/MaterialRenderList.h
@@ -54,11 +86,15 @@ SET(SCENE_GRAPH_SOURCE RenderList.cpp
RenderAssignBuffer.h
RenderAssignBuffer.cpp
SceneNode.cpp
SceneOrient.cpp)
SceneOrient.cpp
SceneMatrix.cpp
)
SOURCE_GROUP("Scene Graph" FILES ${SCENE_GRAPH_HEADER} ${SCENE_GRAPH_SOURCE})
SET(STATIC_MESH_HEADER_FILES ${SG_INCLUDE_PATH}/StaticMesh.h)
SET(STATIC_MESH_HEADER_FILES ${SG_INCLUDE_PATH}/StaticMesh.h
${SG_INCLUDE_PATH}/StaticMeshLODPolicy.h)
SET(STATIC_MESH_SOURCE_FILES StaticMesh.cpp)
SOURCE_GROUP("Scene Graph\\Static Mesh" FILES ${STATIC_MESH_HEADER_FILES} ${STATIC_MESH_SOURCE_FILES})
@@ -153,11 +189,7 @@ SET(VK_DEVICE_SOURCE Vulkan/VKDeviceMemory.cpp
Vulkan/VKDeviceImage.cpp
Vulkan/VKDeviceSampler.cpp
Vulkan/VKDeviceMaterial.cpp
Vulkan/VKDeviceFramebuffer.cpp
Vulkan/VKDeviceSwapchain.cpp
Vulkan/VKDeviceRenderPass.cpp
Vulkan/VKDeviceRenderPassManage.cpp
Vulkan/VKDeviceRenderTarget.cpp)
Vulkan/VKDeviceFramebuffer.cpp)
SET(VK_PHYSICAL_DEVICE_SOURCE ${SG_INCLUDE_PATH}/VKPhysicalDevice.h
Vulkan/VKPhysicalDevice.cpp
@@ -215,7 +247,6 @@ SET(VK_RENDER_CONTEXT_SOURCE ${SG_INCLUDE_PATH}/VKRenderContext.h
SET(VK_RENDER_PASS_SOURCE ${SG_INCLUDE_PATH}/VKFramebuffer.h
${SG_INCLUDE_PATH}/VKPipeline.h
${SG_INCLUDE_PATH}/VKRenderPass.h
${SG_INCLUDE_PATH}/VKRenderTarget.h
${SG_INCLUDE_PATH}/VKSwapchain.h
${SG_INCLUDE_PATH}/VKSemaphore.h
${SG_INCLUDE_PATH}/VKFence.h
@@ -227,13 +258,23 @@ SET(VK_RENDER_PASS_SOURCE ${SG_INCLUDE_PATH}/VKFramebuffer.h
Vulkan/VKPipelineCache.cpp
#Vulkan/VKSubpass.cpp
Vulkan/VKRenderPass.cpp
Vulkan/VKRenderTarget.cpp
Vulkan/VKSwapchainRenderTarget.cpp
Vulkan/VKSwapchain.cpp
)
SOURCE_GROUP("Vulkan\\Render Pass" FILES ${VK_RENDER_PASS_SOURCE})
SET(VK_RENDER_TARGET_SOURCE ${SG_INCLUDE_PATH}/VKRenderTarget.h
${SG_INCLUDE_PATH}/VKRenderTargetData.h
${SG_INCLUDE_PATH}/VKRenderTargetSingle.h
${SG_INCLUDE_PATH}/VKRenderTargetMultiFrame.h
${SG_INCLUDE_PATH}/VKRenderTargetSwapchain.h
Vulkan/VKRenderTarget.cpp
Vulkan/VKRenderTargetData.cpp
Vulkan/VKSwapchainRenderTarget.cpp
)
SOURCE_GROUP("Vulkan\\Render Target" FILES ${VK_RENDER_TARGET_SOURCE})
SOURCE_GROUP("Vulkan\\Render Context" FILES ${VK_RENDER_CONTEXT_SOURCE})
SET(VK_CMD_BUFFER_SOURCE ${SG_INCLUDE_PATH}/VKCommandBuffer.h
@@ -264,17 +305,29 @@ ENDIF(WIN32)
IF(UNIX)
IF(ANDROID)
SET(VULKAN_SURFACE_SOURCE Vulkan/Platform/AndroidVulkan.cpp)
SET(VULKAN_SURFACE_SOURCE Vulkan/platform/AndroidVulkan.cpp)
ELSE()
IF(APPLE)
if(CMAKE_SYSTEM_NAME STREQUAL "iOS" OR CMAKE_OSX_SYSROOT MATCHES ".*iPhone.*")
message(STATUS "Targeting iOS")
set(VULKAN_SURFACE_SOURCE Vulkan/platform/iOSVulkan.cpp)
elseif(CMAKE_SYSTEM_NAME STREQUAL "Darwin" OR CMAKE_OSX_SYSROOT MATCHES ".*MacOSX.*")
message(STATUS "Targeting macOS")
set(VULKAN_SURFACE_SOURCE Vulkan/platform/MacVulkan.cpp)
else()
message(FATAL_ERROR "Unknown Apple platform")
endif()
ELSE()
SET(VULKAN_SURFACE_SOURCE Vulkan/Platform/XCBVulkan.cpp)
find_package(PkgConfig REQUIRED)
pkg_check_modules(WAYLAND_CLIENT wayland-client)
if(WAYLAND_CLIENT_FOUND)
message(STATUS "Targeting Wayland")
set(VULKAN_SURFACE_SOURCE Vulkan/platform/WaylandVulkan.cpp)
else()
message(STATUS "Targeting XCB")
set(VULKAN_SURFACE_SOURCE Vulkan/platform/XCBVulkan.cpp)
endif()
ENDIF()
ENDIF()
ENDIF(UNIX)
@@ -296,6 +349,7 @@ SET(VULKAN_RENDER_SOURCE ${VK_RR_SOURCE}
${VK_TEXTURE_SOURCE}
${VK_MATERIAL_SOURCE}
${VK_RENDER_PASS_SOURCE}
${VK_RENDER_TARGET_SOURCE}
#${VK_RENDER_CONTEXT_SOURCE}
${VK_CMD_BUFFER_SOURCE}
${VK_RENDERABLE_SOURCE}
@@ -307,6 +361,9 @@ add_cm_library(ULRE.SceneGraph "ULRE" ${SCENE_GRAPH_HEADER}
${GEOMETRY_FILES}
${LIGHT_FILES}
${GRAPH_MODULE_FILES}
${GRAPH_FRAMEWORK_FILES}
${SG_TEXTURE_SOURCE}
${TILE_SOURCE}
${SG_VDM_SOURCE}

84
src/SceneGraph/MaterialRenderList.cpp
View File

@@ -26,22 +26,13 @@
这样就可以保证所有的渲染操作就算要切VBO也不需要切换INDIRECT缓冲区定位指令也很方便。
*/
template<>
int Comparator<hgl::graph::RenderNode>::compare(const hgl::graph::RenderNode &obj_one,const hgl::graph::RenderNode &obj_two) const
VK_NAMESPACE_BEGIN
const int RenderNode::compare(const RenderNode &other)const
{
hgl::int64 off;
hgl::graph::Renderable *ri_one=obj_one.scene_node->GetRenderable();
hgl::graph::Renderable *ri_two=obj_two.scene_node->GetRenderable();
//比较管线
{
off=ri_one->GetPipeline()
-ri_two->GetPipeline();
if(off)
return off;
}
hgl::graph::Renderable *ri_one=other.scene_node->GetRenderable();
hgl::graph::Renderable *ri_two=scene_node->GetRenderable();
auto *prim_one=ri_one->GetPrimitive();
auto *prim_two=ri_two->GetPrimitive();
@@ -72,8 +63,8 @@ int Comparator<hgl::graph::RenderNode>::compare(const hgl::graph::RenderNode &ob
//比较距离。。。。。。。。。。。。。。。。。。。。。还不知道这个是正了还是反了,等测出来确认后修改下面的返回值和这里的注释
float foff=obj_one.to_camera_distance
-obj_two.to_camera_distance;
float foff=other.to_camera_distance
-to_camera_distance;
if(foff>0)
return 1;
@@ -81,18 +72,17 @@ int Comparator<hgl::graph::RenderNode>::compare(const hgl::graph::RenderNode &ob
return -1;
}
VK_NAMESPACE_BEGIN
MaterialRenderList::MaterialRenderList(GPUDevice *d,bool l2w,Material *m)
MaterialRenderList::MaterialRenderList(GPUDevice *d,bool l2w,const RenderPipelineIndex &rpi)
{
device=d;
cmd_buf=nullptr;
material=m;
rp_index=rpi;
camera_info=nullptr;
assign_buffer=new RenderAssignBuffer(device,material);
assign_buffer=new RenderAssignBuffer(device,rp_index.material);
vab_list=new VABList(material->GetVertexInput()->GetCount());
vab_list=new VABList(rp_index.material->GetVertexInput()->GetCount());
icb_draw=nullptr;
icb_draw_indexed=nullptr;
@@ -111,6 +101,8 @@ void MaterialRenderList::Add(SceneNode *sn)
{
RenderNode rn;
rn.index =rn_list.GetCount();
rn.scene_node =sn;
rn.l2w_version =sn->GetLocalToWorldMatrixVersion();
@@ -187,9 +179,32 @@ void MaterialRenderList::UpdateLocalToWorld()
}
}
void MaterialRenderList::UpdateMaterialInstance(SceneNode *sn)
{
if(!sn)return;
if(!assign_buffer)
return;
const int node_count=rn_list.GetCount();
if(node_count<=0)return;
RenderNode *rn=rn_list.GetData();
for(int i=0;i<node_count;i++)
{
if(rn->scene_node==sn)
{
assign_buffer->UpdateMaterialInstance(rn);
return;
}
++rn;
}
}
void MaterialRenderList::RenderItem::Set(Renderable *ri)
{
pipeline=ri->GetPipeline();
mi =ri->GetMaterialInstance();
pdb =ri->GetDataBuffer();
prd =ri->GetRenderData();
@@ -222,6 +237,7 @@ void MaterialRenderList::WriteICB(VkDrawIndirectCommand *dicp,RenderItem *ri)
dicp->firstVertex =ri->prd->vertex_offset;
dicp->firstInstance =ri->first_instance;
}
void MaterialRenderList::WriteICB(VkDrawIndexedIndirectCommand *diicp,RenderItem *ri)
{
diicp->indexCount =ri->prd->index_count;
@@ -253,7 +269,6 @@ void MaterialRenderList::Stat()
ri->instance_count=1;
ri->Set(ro);
last_pipeline =ri->pipeline;
last_data_buffer=ri->pdb;
last_vdm =ri->pdb->vdm;
last_render_data=ri->prd;
@@ -264,9 +279,8 @@ void MaterialRenderList::Stat()
{
ro=rn->scene_node->GetRenderable();
if(last_pipeline==ro->GetPipeline())
if(last_data_buffer->Comp(ro->GetDataBuffer()))
if(last_render_data->_Comp(ro->GetRenderData())==0)
if(*last_data_buffer==*ro->GetDataBuffer())
if(*last_render_data==*ro->GetRenderData())
{
++ri->instance_count;
++rn;
@@ -291,7 +305,6 @@ void MaterialRenderList::Stat()
ri->instance_count=1;
ri->Set(ro);
last_pipeline =ri->pipeline;
last_data_buffer=ri->pdb;
last_vdm =ri->pdb->vdm;
last_render_data=ri->prd;
@@ -385,17 +398,7 @@ void MaterialRenderList::ProcIndirectRender()
void MaterialRenderList::Render(RenderItem *ri)
{
if(last_pipeline!=ri->pipeline)
{
cmd_buf->BindPipeline(ri->pipeline);
last_pipeline=ri->pipeline;
last_data_buffer=nullptr;
//这里未来尝试换pipeline同时不换mi/primitive是否需要重新绑定mi/primitive
}
if(!ri->pdb->Comp(last_data_buffer)) //换buf了
if(!last_data_buffer||*(ri->pdb)!=*last_data_buffer) //换buf了
{
if(indirect_draw_count) //如果有间接绘制的数据,赶紧给画了
ProcIndirectRender();
@@ -433,15 +436,16 @@ void MaterialRenderList::Render(RenderCmdBuffer *rcb)
cmd_buf=rcb;
last_pipeline =nullptr;
cmd_buf->BindPipeline(rp_index.pipeline);
last_data_buffer=nullptr;
last_vdm =nullptr;
last_render_data=nullptr;
if(assign_buffer)
assign_buffer->Bind(material);
assign_buffer->Bind(rp_index.material);
cmd_buf->BindDescriptorSets(material);
cmd_buf->BindDescriptorSets(rp_index.material);
RenderItem *ri=ri_array.GetData();
for(uint i=0;i<ri_count;i++)

12
src/SceneGraph/RenderAssignBuffer.cpp
View File

@@ -105,6 +105,18 @@ void RenderAssignBuffer::UpdateLocalToWorld(const RenderNodePointerList &rnp_lis
l2w_buffer->Unmap();
}
void RenderAssignBuffer::UpdateMaterialInstance(const RenderNode *rn)
{
if(!rn)
return;
AssignData *adp=(AssignData *)(assign_vab->DeviceBuffer::Map(sizeof(AssignData)*rn->index,sizeof(AssignData)));
adp->mi=mi_set.Find(rn->scene_node->GetRenderable()->GetMaterialInstance());
assign_vab->Unmap();
}
void RenderAssignBuffer::StatMI(const RenderNodeList &rn_list)
{
mi_set.Clear();

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