Added Collision Tag Matrix #296

Merged
srishamharan merged 5 commits from SP3-4-Editor into main 2022-12-27 13:59:49 +08:00
24 changed files with 1919 additions and 634 deletions
Showing only changes of commit c44f0f093a - Show all commits

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@ -0,0 +1,27 @@
#version 450
#extension GL_KHR_vulkan_glsl : enable
layout(location = 0) in vec3 aVertexPos;
layout(location = 1) in mat4 worldTransform;
layout(location = 5) in vec4 color;
// Output
layout(location = 0) out struct
{
vec4 Color;
} Out;
layout(set = 2, binding = 0) uniform CameraData
{
vec4 position;
mat4 vpMat;
mat4 viewMat;
mat4 perspectiveMat;
mat4 orthoMat;
} cameraData;
void main()
{
gl_Position = cameraData.vpMat * worldTransform * vec4 (aVertexPos.xyz, 1.0f);
Out.Color = color;
}

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@ -0,0 +1,3 @@
Name: DebugDrawMesh_VS
ID: 42127043
Type: 2

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@ -1,14 +1,13 @@
#version 450
#extension GL_KHR_vulkan_glsl : enable
layout(location = 0) in vec4 aVertexPos;
layout(location = 0) in vec3 aVertexPos;
layout(location = 1) in vec4 aVertColor;
// Output
layout(location = 0) out struct
{
vec4 vertColor; // location 0
} Out;
layout(set = 2, binding = 0) uniform CameraData
@ -22,6 +21,6 @@ layout(set = 2, binding = 0) uniform CameraData
void main()
{
gl_Position = cameraData.vpMat * vec4 (aVertexPos.xyz, 1.0f);
gl_Position = cameraData.vpMat * vec4 (aVertexPos, 1.0f);
Out.vertColor = aVertColor;
}

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@ -231,8 +231,6 @@ namespace Sandbox
SHADE::SHScriptEngine* scriptEngine = static_cast<SHADE::SHScriptEngine*>(SHADE::SHSystemManager::GetSystem<SHADE::SHScriptEngine>());
scriptEngine->RemoveAllScripts(testObj);
}
SHDebugDraw::Cube(SHColour::CRIMSON, SHVec3(1.0f, 0.0f, 0.0f), SHVec3(1.0f, 1.0f, 1.0f));
}
void SBTestScene::Render()

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@ -272,7 +272,7 @@ namespace SHADE
void SHEditor::SetUpGridLines(bool drawGrid, bool drawAxes)
{
// Clear existing lines
SHDebugDraw::ClearPersistentDraws();
SHDebugDraw::Persistent::ClearDraws();
static constexpr float DELTA = 1.0f;
static constexpr int EXTENT_COUNT = static_cast<int>(500.0f /* TODO: Remove hard code */ / DELTA);
@ -285,30 +285,34 @@ namespace SHADE
for (int i = 1; i < EXTENT_COUNT; ++i)
{
// X-Axis Lines
SHDebugDraw::PersistentLine
(
GRID_COL,
SHDebugDraw::Persistent::Line
(
SHVec3 { -LINE_HALF_LENGTH, 0.0f, i * DELTA },
SHVec3 { LINE_HALF_LENGTH, 0.0f, i * DELTA }
);
SHDebugDraw::PersistentLine
(
SHVec3 { LINE_HALF_LENGTH, 0.0f, i * DELTA },
GRID_COL,
true
);
SHDebugDraw::Persistent::Line
(
SHVec3 { -LINE_HALF_LENGTH, 0.0f, i * -DELTA },
SHVec3 { LINE_HALF_LENGTH, 0.0f, i * -DELTA }
SHVec3 { LINE_HALF_LENGTH, 0.0f, i * -DELTA },
GRID_COL,
true
);
// Y-Axis Lines
SHDebugDraw::PersistentLine
SHDebugDraw::Persistent::Line
(
GRID_COL,
SHVec3 { i * DELTA, 0.0f, -LINE_HALF_LENGTH },
SHVec3 { i * DELTA, 0.0f, LINE_HALF_LENGTH }
);
SHDebugDraw::PersistentLine
(
SHVec3 { i * DELTA, 0.0f, LINE_HALF_LENGTH },
GRID_COL,
true
);
SHDebugDraw::Persistent::Line
(
SHVec3 { -i * DELTA, 0.0f, -LINE_HALF_LENGTH },
SHVec3 { -i * DELTA, 0.0f, LINE_HALF_LENGTH }
SHVec3 { -i * DELTA, 0.0f, LINE_HALF_LENGTH },
GRID_COL,
true
);
}
}
@ -320,25 +324,28 @@ namespace SHADE
const SHColour Y_AXIS_COL = drawAxes ? SHColour::GREEN : GRID_COL;
const SHColour Z_AXIS_COL = drawAxes ? SHColour::BLUE : GRID_COL;
// X
SHDebugDraw::PersistentLine
SHDebugDraw::Persistent::Line
(
X_AXIS_COL,
SHVec3 { -LINE_HALF_LENGTH, 0.0f, 0.0f },
SHVec3 { LINE_HALF_LENGTH, 0.0f, 0.0f }
SHVec3 { LINE_HALF_LENGTH, 0.0f, 0.0f },
X_AXIS_COL,
true
);
// Y
SHDebugDraw::PersistentLine
SHDebugDraw::Persistent::Line
(
Y_AXIS_COL,
SHVec3 { 0.0f, -LINE_HALF_LENGTH, 0.0f },
SHVec3 { 0.0f, LINE_HALF_LENGTH, 0.0f }
SHVec3 { 0.0f, LINE_HALF_LENGTH, 0.0f },
Y_AXIS_COL,
true
);
// Z
SHDebugDraw::PersistentLine
SHDebugDraw::Persistent::Line
(
Z_AXIS_COL,
SHVec3 { 0.0f, 0.0f, -LINE_HALF_LENGTH },
SHVec3 { 0.0f, 0.0f, LINE_HALF_LENGTH }
SHVec3 { 0.0f, 0.0f, LINE_HALF_LENGTH },
Z_AXIS_COL,
true
);
}
}
@ -354,7 +361,7 @@ namespace SHADE
break;
case State::PLAY:
default:
SHDebugDraw::ClearPersistentDraws();
SHDebugDraw::Persistent::ClearDraws();
break;
}
return eventData->handle;

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@ -25,308 +25,696 @@ of DigiPen Institute of Technology is prohibited.
namespace SHADE
{
/*---------------------------------------------------------------------------------*/
/* DrawRoutine */
/*---------------------------------------------------------------------------------*/
SHDebugDrawSystem::ProcessPointsRoutine::ProcessPointsRoutine()
/*-----------------------------------------------------------------------------------*/
/* DrawRoutine */
/*-----------------------------------------------------------------------------------*/
SHDebugDrawSystem::ProcessPointsRoutine::ProcessPointsRoutine()
: SHSystemRoutine("Debug Draw", true)
{
SystemFamily::GetID<SHDebugDrawSystem>();
}
void SHDebugDrawSystem::ProcessPointsRoutine::Execute(double dt) noexcept
{
auto gfxSys = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSys)
{
SystemFamily::GetID<SHDebugDrawSystem>();
SHLOG_ERROR("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
void SHDebugDrawSystem::ProcessPointsRoutine::Execute(double dt) noexcept
{
auto gfxSys = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSys)
{
SHLOG_WARNING("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
// Get the system
SHDebugDrawSystem* system = static_cast<SHDebugDrawSystem*>(GetSystem());
// Get the system
SHDebugDrawSystem* system = static_cast<SHDebugDrawSystem*>(GetSystem());
// Get current frame index
const uint32_t FRAME_IDX = gfxSys->GetCurrentFrameIndex();
/* Non-Persistent Buffer */
// Update the buffer
system->numPoints[FRAME_IDX] = system->points.size();
const uint32_t DATA_SIZE = sizeof(PointVertex) * system->points.size();
if (DATA_SIZE > 0)
{
system->vertexBuffers[FRAME_IDX]->WriteToMemory(system->points.data(), DATA_SIZE, 0, 0);
}
// Reset for next frame
system->points.clear();
/* Persistent Buffer */
// Check if there are changes
if (system->persistentBuffersCleared[FRAME_IDX]
||
system->numPersistentPoints[FRAME_IDX] != system->persistentPoints.size())
{
// Update Buffer
system->numPersistentPoints[FRAME_IDX] = system->persistentPoints.size();
const uint32_t DATA_SIZE = sizeof(PointVertex) * system->persistentPoints.size();
if (DATA_SIZE > 0)
{
system->persistentVertexBuffers[FRAME_IDX]->WriteToMemory(system->persistentPoints.data(), DATA_SIZE, 0, 0);
}
// Reset Flag
system->persistentBuffersCleared[FRAME_IDX] = false;
}
}
// Get current frame index
const uint32_t FRAME_IDX = gfxSys->GetCurrentFrameIndex();
/*---------------------------------------------------------------------------------*/
/* SHSystem overrides */
/*---------------------------------------------------------------------------------*/
void SHDebugDrawSystem::Init()
// Set up line batches
for (auto& batch : system->lineBatches)
{
// Register function for subpass
const auto* GFX_SYSTEM = SHSystemManager::GetSystem<SHGraphicsSystem>();
auto const& RENDERERS = GFX_SYSTEM->GetDefaultViewport()->GetRenderers();
auto renderGraph = RENDERERS[SHGraphicsConstants::RenderGraphIndices::WORLD]->GetRenderGraph();
auto subPass = renderGraph->GetNode("Debug Draw")->GetSubpass("Debug Draw");
subPass->AddExteriorDrawCalls([this, GFX_SYSTEM](Handle<SHVkCommandBuffer>& cmdBuffer, uint32_t frameIndex)
system->prepareBatch(batch, FRAME_IDX);
batch.Points.clear();
}
// Set up mesh batches
for (auto& batch : system->meshBatches)
{
system->prepareBatch(batch, FRAME_IDX);
for (auto& subBatch : batch.SubBatches)
{
subBatch.second.InstanceColors.clear();
subBatch.second.InstanceTransforms.clear();
}
}
// Set up persistent batches if it was changed
if (system->persistentBuffersUpdated[FRAME_IDX])
{
for (auto& batch : system->persistentLineBatches)
{
system->prepareBatch(batch, FRAME_IDX);
}
for (auto& batch : system->persistentMeshBatches)
{
system->prepareBatch(batch, FRAME_IDX);
}
system->persistentBuffersUpdated[FRAME_IDX] = false;
}
}
/*-----------------------------------------------------------------------------------*/
/* SHSystem overrides */
/*-----------------------------------------------------------------------------------*/
void SHDebugDrawSystem::Init()
{
gfxSystem = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSystem)
{
SHLOG_ERROR("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
// Create all batches
createLineBatches();
createMeshBatches();
// Register function for subpass
auto const& RENDERERS = gfxSystem->GetDefaultViewport()->GetRenderers();
auto renderGraph = RENDERERS[SHGraphicsConstants::RenderGraphIndices::WORLD]->GetRenderGraph();
auto subPass = renderGraph->GetNode("Debug Draw")->GetSubpass("Debug Draw");
subPass->AddExteriorDrawCalls([this](Handle<SHVkCommandBuffer>& cmdBuffer, uint32_t frameIndex)
{
const uint32_t FRAME_IDX = gfxSystem->GetCurrentFrameIndex();
cmdBuffer->BeginLabeledSegment("SHDebugDraw (No Depth Test)");
{
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Lines)");
{
// Get Current frame index
const uint32_t FRAME_IDX = GFX_SYSTEM->GetCurrentFrameIndex();
// Don't draw if no points
if (numPoints[FRAME_IDX] > 0)
{
cmdBuffer->BeginLabeledSegment("SHDebugDraw");
cmdBuffer->BindPipeline(GFX_SYSTEM->GetDebugDrawPipeline());
cmdBuffer->SetLineWidth(LineWidth);
cmdBuffer->BindVertexBuffer(0, vertexBuffers[FRAME_IDX], 0);
cmdBuffer->DrawArrays(numPoints[FRAME_IDX], 1, 0, 0);
}
});
auto subPassWithDepth = renderGraph->GetNode("Debug Draw with Depth")->GetSubpass("Debug Draw with Depth");
subPassWithDepth->AddExteriorDrawCalls([this, GFX_SYSTEM](Handle<SHVkCommandBuffer>& cmdBuffer, uint32_t frameIndex)
{
// Get Current frame index
const uint32_t FRAME_IDX = GFX_SYSTEM->GetCurrentFrameIndex();
// Don't draw if no points
if (numPersistentPoints[FRAME_IDX] > 0)
{
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Persistent)");
cmdBuffer->BindPipeline(GFX_SYSTEM->GetDebugDrawDepthPipeline());
cmdBuffer->SetLineWidth(LineWidth);
cmdBuffer->BindVertexBuffer(0, persistentVertexBuffers[FRAME_IDX], 0);
cmdBuffer->DrawArrays(numPersistentPoints[FRAME_IDX], 1, 0, 0);
cmdBuffer->EndLabeledSegment();
}
});
// Reset trackers
std::fill_n(numPoints.begin(), numPoints.size(), 0);
std::fill_n(numPersistentPoints.begin(), numPersistentPoints.size(), 0);
for (bool& cleared : persistentBuffersCleared)
cleared = true;
// Allocate buffers
// - Non-Persistent Draws
static constexpr uint32_t BUFFER_SIZE = MAX_POINTS * sizeof(PointVertex);
for (Handle<SHVkBuffer>& bufHandle : vertexBuffers)
{
bufHandle = GFX_SYSTEM->GetDevice()->CreateBuffer
(
BUFFER_SIZE,
nullptr,
0,
vk::BufferUsageFlagBits::eVertexBuffer,
VmaMemoryUsage::VMA_MEMORY_USAGE_AUTO,
VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT | VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_MAPPED_BIT,
"Debug Draw Non-Persistent Vertex Buffer"
);
renderBatch(lineBatches[static_cast<int>(LineRenderMode::NoDepthTest)], cmdBuffer, FRAME_IDX);
renderBatch(persistentLineBatches[static_cast<int>(LineRenderMode::NoDepthTest)], cmdBuffer, FRAME_IDX);
}
// - Persistent Draws
for (Handle<SHVkBuffer>& bufHandle : persistentVertexBuffers)
cmdBuffer->EndLabeledSegment();
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Meshes)");
{
bufHandle = GFX_SYSTEM->GetDevice()->CreateBuffer
(
BUFFER_SIZE,
nullptr,
0,
vk::BufferUsageFlagBits::eVertexBuffer,
VmaMemoryUsage::VMA_MEMORY_USAGE_AUTO,
VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT | VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_MAPPED_BIT,
"Debug Draw Persistent Vertex Buffer"
);
renderBatch(meshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)], cmdBuffer, FRAME_IDX);
renderBatch(meshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)], cmdBuffer, FRAME_IDX);
renderBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)], cmdBuffer, FRAME_IDX);
renderBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)], cmdBuffer, FRAME_IDX);
}
}
void SHDebugDrawSystem::Exit()
cmdBuffer->EndLabeledSegment();
}
cmdBuffer->EndLabeledSegment();
});
auto subPassWithDepth = renderGraph->GetNode("Debug Draw with Depth")->GetSubpass("Debug Draw with Depth");
subPassWithDepth->AddExteriorDrawCalls([this](Handle<SHVkCommandBuffer>& cmdBuffer, uint32_t frameIndex)
{
for (auto vertexBuffer : vertexBuffers)
const uint32_t FRAME_IDX = gfxSystem->GetCurrentFrameIndex();
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Depth Tested)");
{
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Lines)");
{
if (vertexBuffer)
vertexBuffer.Free();
renderBatch(lineBatches[static_cast<int>(LineRenderMode::DepthTested)], cmdBuffer, FRAME_IDX);
renderBatch(persistentLineBatches[static_cast<int>(LineRenderMode::DepthTested)], cmdBuffer, FRAME_IDX);
}
for (auto vertexBuffer : persistentVertexBuffers)
cmdBuffer->EndLabeledSegment();
cmdBuffer->BeginLabeledSegment("SHDebugDraw (Meshes)");
{
if (vertexBuffer)
vertexBuffer.Free();
renderBatch(meshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)], cmdBuffer, FRAME_IDX);
renderBatch(meshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)], cmdBuffer, FRAME_IDX);
renderBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)], cmdBuffer, FRAME_IDX);
renderBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)], cmdBuffer, FRAME_IDX);
}
}
cmdBuffer->EndLabeledSegment();
}
cmdBuffer->EndLabeledSegment();
});
}
/*---------------------------------------------------------------------------------*/
/* Draw Functions */
/*---------------------------------------------------------------------------------*/
void SHDebugDrawSystem::DrawLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt)
void SHDebugDrawSystem::Exit()
{
// Destroy buffers in the batches
destroyLineBatches();
destroyMeshBatches();
}
/*-----------------------------------------------------------------------------------*/
/* Draw Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDrawSystem::DrawLine(const SHVec3& start, const SHVec3& end, const SHColour& color, bool depthTested)
{
// Insert into the batch
drawLine(getLineBatch(depthTested), start, end, color);
}
void SHDebugDrawSystem::DrawLineLoop(std::initializer_list<SHVec3> points, const SHColour& color, bool depthTested)
{
DrawLineLoop(points.begin(), points.end(), color, depthTested);
}
void SHDebugDrawSystem::DrawTri(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHColour& color, bool depthTested)
{
DrawLineLoop({ p1, p2, p3 }, color, depthTested);
}
void SHDebugDrawSystem::DrawQuad(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHVec3& p4, const SHColour& color, bool depthTested)
{
DrawLineLoop({ p1, p2, p3, p4 }, color, depthTested);
}
void SHDebugDrawSystem::DrawCircle(const SHMatrix& matrix, const SHColour& color /*= SHColour::WHITE*/, bool depthTested /*= false*/)
{
drawCircle(getMeshBatch(false, depthTested), matrix, color);
}
void SHDebugDrawSystem::DrawWireCube(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawWireCube(getMeshBatch(false, depthTested), matrix, color);
}
void SHDebugDrawSystem::DrawWireSphere(const SHMatrix& matrix, const SHColour& color /*= SHColour::WHITE*/, bool depthTested /*= false*/)
{
drawWireSphere(getMeshBatch(false, depthTested), matrix, color);
}
void SHDebugDrawSystem::DrawCube(const SHMatrix& matrix, const SHColour& color /*= SHColour::WHITE*/, bool depthTested /*= false*/)
{
drawCube(getMeshBatch(true, depthTested), matrix, color);
}
void SHDebugDrawSystem::DrawSphere(const SHMatrix& matrix, const SHColour& color /*= SHColour::WHITE*/, bool depthTested /*= false*/)
{
drawSphere(getMeshBatch(true, depthTested), matrix, color);
}
/*-----------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDrawSystem::DrawPersistentLine(const SHVec3& start, const SHVec3& end, const SHColour& color, bool depthTested)
{
// Insert into the batch
drawLine(getPersistentLineBatch(depthTested), start, end, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentLineLoop(std::initializer_list<SHVec3> points, const SHColour& color, bool depthTested)
{
DrawPersistentLineLoop(points.begin(), points.end(), color, depthTested);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentTri(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHColour& color, bool depthTested)
{
DrawPersistentLineLoop({ p1, p2, p3 }, color, depthTested);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentQuad(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHVec3& p4, const SHColour& color, bool depthTested)
{
DrawPersistentLineLoop({ p1, p2, p3, p4 }, color, depthTested);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentCircle(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawCircle(getPersistentMeshBatch(false, depthTested), matrix, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentWireCube(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawWireCube(getPersistentMeshBatch(false, depthTested), matrix, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentWireSphere(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawWireSphere(getPersistentMeshBatch(false, depthTested), matrix, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentCube(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawCube(getPersistentMeshBatch(true, depthTested), matrix, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::DrawPersistentSphere(const SHMatrix& matrix, const SHColour& color, bool depthTested)
{
drawSphere(getPersistentMeshBatch(true, depthTested), matrix, color);
markPersistentDrawsDirty();
}
void SHDebugDrawSystem::ClearPersistentDraws()
{
for (auto& batch : persistentLineBatches)
batch.Points.clear();
markPersistentDrawsDirty();
}
/*-----------------------------------------------------------------------------------*/
/* Helper Draw Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDrawSystem::drawLine(LinesBatch& batch, const SHVec3& start, const SHVec3& end, const SHColour& color)
{
// Check if points exceeded max
if (batch.Points.size() >= MAX_POINTS)
{
drawLine(points, color, startPt, endPt);
SHLOG_WARNING("[SHDebugDrawSystem] Exceeded maximum size of drawable debug lines. Ignoring.");
return;
}
void SHDebugDrawSystem::DrawTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3)
batch.Points.emplace_back(start, color);
batch.Points.emplace_back(end, color);
}
void SHDebugDrawSystem::drawMesh(Handle<SHMesh> mesh, MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
// Create if doesn't exist
if (!batch.SubBatches.contains(mesh))
{
drawPoly(points, color, { pt1, pt2, pt3 });
MeshBatch::MultiDrawSet set;
set.Mesh = mesh;
batch.SubBatches.emplace(mesh, std::move(set));
}
void SHDebugDrawSystem::DrawQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4)
// Add to the batch
auto& subBatch = batch.SubBatches[mesh];
subBatch.InstanceTransforms.emplace_back(transformMatrix);
subBatch.InstanceColors.emplace_back(color);
}
void SHDebugDrawSystem::drawWireCube(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
drawMesh
(
gfxSystem->GetMeshPrimitive(PrimitiveType::LineCube),
batch, transformMatrix, color
);
}
void SHDebugDrawSystem::drawWireSphere(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
drawMesh
(
gfxSystem->GetMeshPrimitive(PrimitiveType::Sphere),
batch, transformMatrix, color
);
}
void SHDebugDrawSystem::drawCube(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
drawMesh
(
gfxSystem->GetMeshPrimitive(PrimitiveType::Cube),
batch, transformMatrix, color
);
}
void SHDebugDrawSystem::drawSphere(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
drawMesh
(
gfxSystem->GetMeshPrimitive(PrimitiveType::Sphere),
batch, transformMatrix, color
);
}
void SHDebugDrawSystem::drawCircle(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color)
{
drawMesh
(
gfxSystem->GetMeshPrimitive(PrimitiveType::LineCircle),
batch, transformMatrix, color
);
}
/*-----------------------------------------------------------------------------------*/
/* Helper Batch Functions - Lines */
/*-----------------------------------------------------------------------------------*/
SHDebugDrawSystem::LinesBatch& SHDebugDrawSystem::getLineBatch(bool depthTested)
{
return lineBatches[static_cast<int>(depthTested ? LineRenderMode::DepthTested : LineRenderMode::NoDepthTest)];
}
SHDebugDrawSystem::LinesBatch& SHDebugDrawSystem::getPersistentLineBatch(bool depthTested)
{
return persistentLineBatches[static_cast<int>(depthTested ? LineRenderMode::DepthTested : LineRenderMode::NoDepthTest)];
}
void SHDebugDrawSystem::createLineBatches()
{
auto gfxSys = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSys)
{
drawPoly(points, color, { pt1, pt2, pt3, pt4 });
SHLOG_ERROR("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
void SHDebugDrawSystem::DrawPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList)
// Line Batches
initBatch
(
getLineBatch(false),
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineNoDepthTest),
"Debug Draw Non-Persistent Vertex Buffer"
);
initBatch
(
getLineBatch(true),
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineDepthTested),
"Debug Draw Depth Tested Non-Persistent Vertex Buffer"
);
// Persistent Line Batches
initBatch
(
getPersistentLineBatch(false),
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineNoDepthTest),
"Debug Draw Persistent Vertex Buffer"
);
initBatch
(
getPersistentLineBatch(true),
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineDepthTested),
"Debug Draw Depth Tested Persistent Vertex Buffer"
);
}
void SHDebugDrawSystem::initBatch(LinesBatch& batch, Handle<SHVkPipeline> pipeline, const std::string& vertexBufferName)
{
auto gfxSys = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSys)
{
drawPoly(points, color, pointList.begin(), pointList.end());
SHLOG_WARNING("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
void SHDebugDrawSystem::DrawCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size)
batch.Pipeline = pipeline;
for (auto& vBuffer : batch.VertexBuffers)
{
drawCube(points, color, pos, size);
vBuffer = gfxSys->GetDevice()->CreateBuffer
(
sizeof(PointVertex) * MAX_POINTS,
nullptr,
0,
vk::BufferUsageFlagBits::eVertexBuffer,
VmaMemoryUsage::VMA_MEMORY_USAGE_AUTO,
VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_HOST_ACCESS_SEQUENTIAL_WRITE_BIT |
VmaAllocationCreateFlagBits::VMA_ALLOCATION_CREATE_MAPPED_BIT,
vertexBufferName
);
}
}
void SHDebugDrawSystem::DrawSphere(const SHVec4& color, const SHVec3& pos, double radius)
void SHDebugDrawSystem::prepareBatch(LinesBatch& batch, uint32_t frameIndex)
{
// Parameter checks
if (frameIndex > batch.VertexBuffers.size())
{
drawSphere(points, color, pos, radius);
SHLOG_ERROR("[SHDebugDrawSystem] An invalid frame index was specified for debug drawing. Skipping.");
return;
}
/*---------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/*---------------------------------------------------------------------------------*/
void SHDebugDrawSystem::DrawPersistentLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt)
// Fill data into the buffers
batch.NumPoints[frameIndex] = batch.Points.size();
const uint32_t DATA_SIZE = sizeof(PointVertex) * batch.Points.size();
if (DATA_SIZE > 0)
{
drawLine(persistentPoints, color, startPt, endPt);
batch.VertexBuffers[frameIndex]->WriteToMemory(batch.Points.data(), DATA_SIZE, 0, 0);
}
}
void SHDebugDrawSystem::DrawPersistentTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3)
void SHDebugDrawSystem::renderBatch(LinesBatch& batch, Handle<SHVkCommandBuffer> cmdBuffer, uint32_t frameIndex)
{
if (batch.NumPoints[frameIndex] > 0)
{
drawPoly(persistentPoints, color, { pt1, pt2, pt3 });
cmdBuffer->BindPipeline(batch.Pipeline);
cmdBuffer->SetLineWidth(LineWidth);
cmdBuffer->BindVertexBuffer(0, batch.VertexBuffers[frameIndex], 0);
cmdBuffer->DrawArrays(batch.NumPoints[frameIndex], 1, 0, 0);
}
}
void SHDebugDrawSystem::DrawPersistentQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4)
void SHDebugDrawSystem::destroyBatch(LinesBatch& batch)
{
for (auto& vBuffer : batch.VertexBuffers)
{
drawPoly(persistentPoints, color, { pt1, pt2, pt3, pt4 });
if (vBuffer)
{
vBuffer.Free();
vBuffer = {};
}
}
}
void SHDebugDrawSystem::DrawPersistentPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList)
void SHDebugDrawSystem::destroyLineBatches()
{
destroyBatch(getLineBatch(true));
destroyBatch(getLineBatch(false));
destroyBatch(getPersistentLineBatch(true));
destroyBatch(getPersistentLineBatch(false));
}
/*-----------------------------------------------------------------------------------*/
/* Helper Batch Functions - Meshes */
/*-----------------------------------------------------------------------------------*/
SHDebugDrawSystem::MeshBatch& SHDebugDrawSystem::getMeshBatch(bool filled, bool depthTested)
{
MeshRenderMode mode = {};
if (filled)
{
drawPoly(persistentPoints, color, pointList.begin(), pointList.end());
mode = depthTested ? MeshRenderMode::FilledDepthTested
: MeshRenderMode::FilledNoDepthTest;
}
void SHDebugDrawSystem::DrawPersistentCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size)
else
{
drawCube(persistentPoints, color, pos, size);
mode = depthTested ? MeshRenderMode::WireDepthTested
: MeshRenderMode::WireNoDepthTest;
}
void SHDebugDrawSystem::DrawPersistentSphere(const SHVec4& color, const SHVec3& pos, double radius)
return meshBatches[static_cast<int>(mode)];
}
SHDebugDrawSystem::MeshBatch& SHDebugDrawSystem::getPersistentMeshBatch(bool filled, bool depthTested)
{
MeshRenderMode mode = {};
if (filled)
{
drawSphere(persistentPoints, color, pos, radius);
mode = depthTested ? MeshRenderMode::FilledDepthTested
: MeshRenderMode::FilledNoDepthTest;
}
void SHDebugDrawSystem::ClearPersistentDraws()
else
{
persistentPoints.clear();
for (bool& cleared : persistentBuffersCleared)
cleared = true;
mode = depthTested ? MeshRenderMode::WireDepthTested
: MeshRenderMode::WireNoDepthTest;
}
void SHDebugDrawSystem::drawLine(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt)
return persistentMeshBatches[static_cast<int>(mode)];
}
void SHDebugDrawSystem::createMeshBatches()
{
auto gfxSys = SHSystemManager::GetSystem<SHGraphicsSystem>();
if (!gfxSys)
{
if (storage.size() > MAX_POINTS)
{
SHLOG_WARNING("[DebugDraw] Exceeded maximum size of drawable debug elements.");
return;
}
storage.emplace_back(PointVertex{ startPt, color });
storage.emplace_back(PointVertex{ endPt, color });
SHLOG_ERROR("[DebugDraw] Attempted to do debug draw without a graphics system.");
return;
}
void SHDebugDrawSystem::drawLineSet(std::vector<PointVertex>& storage, const SHVec4& color, std::initializer_list<SHVec3> pointList)
// Set up batches
initBatch
(
meshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::FilledMeshNoDepthTest)
);
initBatch
(
meshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::FilledMeshDepthTested)
);
initBatch
(
meshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineMeshNoDepthTest)
);
initBatch
(
meshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineMeshDepthTested)
);
// Set up persistent batches
initBatch
(
persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::FilledMeshNoDepthTest)
);
initBatch
(
persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::FilledMeshDepthTested)
);
initBatch
(
persistentMeshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineMeshNoDepthTest)
);
initBatch
(
persistentMeshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)],
gfxSys->GetDebugDrawPipeline(DebugDrawPipelineType::LineMeshDepthTested)
);
}
void SHDebugDrawSystem::initBatch(MeshBatch& batch, Handle<SHVkPipeline> pipeline)
{
batch.Pipeline = pipeline;
}
void SHDebugDrawSystem::prepareBatch(MeshBatch& batch, uint32_t frameIndex)
{
// Parameter checks
if (frameIndex > batch.MDIBuffer.size())
{
drawLineSet(storage, color, pointList.begin(), pointList.end());
SHLOG_ERROR("[SHDebugDrawSystem] An invalid frame index was specified for debug drawing. Skipping.");
return;
}
void SHDebugDrawSystem::drawPoly(std::vector<PointVertex>& storage, const SHVec4& color, std::initializer_list<SHVec3> pointList)
// Clear existing data
batch.InstanceTransforms.clear();
batch.InstanceColors.clear();
batch.MDIData.clear();
// Populate
for (auto& subBatch : batch.SubBatches)
{
drawPoly(storage, color, pointList.begin(), pointList.end());
}
auto& multiDrawSet = subBatch.second;
void SHDebugDrawSystem::drawCube(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& pos, const SHVec3& size)
// Nothing to populate with
if (multiDrawSet.InstanceTransforms.empty())
continue;
// Populate batch data on CPU
batch.MDIData.emplace_back(vk::DrawIndexedIndirectCommand
{
.indexCount = multiDrawSet.Mesh->IndexCount,
.instanceCount = static_cast<uint32_t>(multiDrawSet.InstanceTransforms.size()),
.firstIndex = multiDrawSet.Mesh->FirstIndex,
.vertexOffset = multiDrawSet.Mesh->FirstVertex,
.firstInstance = static_cast<uint32_t>(batch.InstanceTransforms.size())
});
batch.InstanceTransforms.insert
(
batch.InstanceTransforms.end(),
multiDrawSet.InstanceTransforms.begin(),
multiDrawSet.InstanceTransforms.end()
);
batch.InstanceColors.insert
(
batch.InstanceColors.end(),
multiDrawSet.InstanceColors.begin(),
multiDrawSet.InstanceColors.end()
);
// Copy to GPU
SHVkUtil::EnsureBufferAndCopyHostVisibleData
(
gfxSystem->GetDevice(),
batch.MDIBuffer[frameIndex],
batch.MDIData.data(), static_cast<uint32_t>(batch.MDIData.size() * sizeof(vk::DrawIndexedIndirectCommand)),
vk::BufferUsageFlagBits::eIndirectBuffer,
"Debug Draw Mesh Batch MDI Buffer"
);
SHVkUtil::EnsureBufferAndCopyHostVisibleData
(
gfxSystem->GetDevice(),
batch.InstanceTransformBuffer[frameIndex],
batch.InstanceTransforms.data(), static_cast<uint32_t>(batch.InstanceTransforms.size() * sizeof(SHMatrix)),
vk::BufferUsageFlagBits::eVertexBuffer,
"Debug Draw Mesh Batch Instance Transform Buffer"
);
SHVkUtil::EnsureBufferAndCopyHostVisibleData
(
gfxSystem->GetDevice(),
batch.InstanceColorBuffer[frameIndex],
batch.InstanceColors.data(), static_cast<uint32_t>(batch.InstanceColors.size() * sizeof(SHVec4)),
vk::BufferUsageFlagBits::eVertexBuffer,
"Debug Draw Mesh Batch Instance Color Buffer"
);
}
}
void SHDebugDrawSystem::renderBatch(MeshBatch& batch, Handle<SHVkCommandBuffer> cmdBuffer, uint32_t frameIndex)
{
static constexpr uint32_t TRANSFORM_BIND_PT = 1;
static constexpr uint32_t COLOR_BIND_PT = 2;
// Nothing to draw
if (batch.MDIData.empty())
return;
// Bind Pipeline
cmdBuffer->BindPipeline(batch.Pipeline);
// Bind meshes
cmdBuffer->BindVertexBuffer(0, gfxSystem->GetMeshLibrary().GetVertexPositionsBuffer(), 0);
cmdBuffer->BindIndexBuffer(gfxSystem->GetMeshLibrary().GetIndexBuffer(), 0);
// Bind instance attributes
cmdBuffer->BindVertexBuffer(TRANSFORM_BIND_PT, batch.InstanceTransformBuffer[frameIndex], 0);
cmdBuffer->BindVertexBuffer(COLOR_BIND_PT, batch.InstanceColorBuffer[frameIndex], 0);
// Execute draw
cmdBuffer->DrawMultiIndirect(batch.MDIBuffer[frameIndex], static_cast<uint32_t>(batch.MDIData.size()));
}
void SHDebugDrawSystem::destroyBatch(MeshBatch& batch)
{
for (auto& buffer : batch.InstanceColorBuffer)
{
static const SHVec3 EXTENTS = SHVec3{ 0.5f, 0.5f, 0.5f };
static const SHVec3 UNIT_BOT_LEFT_FRONT = SHVec3{ pos - EXTENTS };
static const SHVec3 UNIT_BOT_RIGHT_FRONT = SHVec3{ pos + SHVec3 { EXTENTS.x, -EXTENTS.y, -EXTENTS.z } };
static const SHVec3 UNIT_BOT_RIGHT_BACK = SHVec3{ pos + SHVec3 { EXTENTS.x, -EXTENTS.y, EXTENTS.z } };
static const SHVec3 UNIT_BOT_LEFT_BACK = SHVec3{ pos + SHVec3 { -EXTENTS.x, -EXTENTS.y, EXTENTS.z } };
static const SHVec3 UNIT_TOP_LEFT_BACK = SHVec3{ pos + SHVec3 { -EXTENTS.x, EXTENTS.y, EXTENTS.z } };
static const SHVec3 UNIT_TOP_RIGHT_FRONT = SHVec3{ pos + SHVec3 { EXTENTS.x, EXTENTS.y, -EXTENTS.z } };
static const SHVec3 UNIT_TOP_LEFT_FRONT = SHVec3{ pos + SHVec3 { -EXTENTS.x, EXTENTS.y, -EXTENTS.z } };
static const SHVec3 UNIT_TOP_RIGHT_BACK = SHVec3{ pos + EXTENTS };
const SHVec3 BOT_LEFT_BACK = UNIT_BOT_LEFT_BACK * size;
const SHVec3 BOT_RIGHT_BACK = UNIT_BOT_RIGHT_BACK * size;
const SHVec3 BOT_LEFT_FRONT = UNIT_BOT_LEFT_FRONT * size;
const SHVec3 BOT_RIGHT_FRONT = UNIT_BOT_RIGHT_FRONT * size;
const SHVec3 TOP_LEFT_BACK = UNIT_TOP_LEFT_BACK * size;
const SHVec3 TOP_RIGHT_BACK = UNIT_TOP_RIGHT_BACK * size;
const SHVec3 TOP_LEFT_FRONT = UNIT_TOP_LEFT_FRONT * size;
const SHVec3 TOP_RIGHT_FRONT = UNIT_TOP_RIGHT_FRONT * size;
drawLineSet
(
storage,
color,
{
// Bottom Square
BOT_LEFT_BACK , BOT_RIGHT_BACK,
BOT_RIGHT_BACK , BOT_RIGHT_FRONT,
BOT_RIGHT_FRONT, BOT_LEFT_FRONT,
BOT_LEFT_FRONT , BOT_LEFT_BACK,
// Top Square
TOP_LEFT_BACK , TOP_RIGHT_BACK,
TOP_RIGHT_BACK , TOP_RIGHT_FRONT,
TOP_RIGHT_FRONT, TOP_LEFT_FRONT,
TOP_LEFT_FRONT , TOP_LEFT_BACK,
// Middle Lines
TOP_LEFT_BACK , BOT_LEFT_BACK,
TOP_RIGHT_BACK , BOT_RIGHT_BACK,
TOP_RIGHT_FRONT, BOT_RIGHT_FRONT,
TOP_LEFT_FRONT , BOT_LEFT_FRONT
}
);
if (buffer)
{
buffer.Free();
buffer = {};
}
}
void SHDebugDrawSystem::drawSphere(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& pos, double radius)
for (auto& buffer : batch.InstanceTransformBuffer)
{
//if (spherePoints.empty())
{
spherePoints.clear();
// Generate
static const SHMeshData SPHERE = SHPrimitiveGenerator::Sphere();
for (const auto& idx : SPHERE.Indices)
{
spherePoints.emplace_back(SPHERE.VertexPositions[idx] * radius + pos);
}
}
drawLineSet(storage, color, spherePoints.begin(), spherePoints.end());
if (buffer)
{
buffer.Free();
buffer = {};
}
}
for (auto& buffer : batch.MDIBuffer)
{
if (buffer)
{
buffer.Free();
buffer = {};
}
}
}
void SHDebugDrawSystem::destroyMeshBatches()
{
destroyBatch(meshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)]);
destroyBatch(meshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)]);
destroyBatch(meshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)]);
destroyBatch(meshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)]);
destroyBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledNoDepthTest)]);
destroyBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::FilledDepthTested)]);
destroyBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::WireNoDepthTest)]);
destroyBatch(persistentMeshBatches[static_cast<int>(MeshRenderMode::WireDepthTested)]);
}
/*-----------------------------------------------------------------------------------*/
/* Helper Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDrawSystem::markPersistentDrawsDirty()
{
for (bool& dirty : persistentBuffersUpdated)
dirty = true;
}
}

View File

@ -18,6 +18,7 @@ of DigiPen Institute of Technology is prohibited.
#include "Math/Vector/SHVec2.h"
#include "Math/Vector/SHVec3.h"
#include "Math/Vector/SHVec4.h"
#include "Math/SHMatrix.h"
#include "ECS_Base/System/SHSystem.h"
#include "ECS_Base/System/SHSystemRoutine.h"
#include "Resource/SHHandle.h"
@ -30,7 +31,10 @@ namespace SHADE
/*-----------------------------------------------------------------------------------*/
/* Forward Declarations */
/*-----------------------------------------------------------------------------------*/
class SHGraphicsSystem;
class SHVkBuffer;
class SHMesh;
class SHVkPipeline;
/*-----------------------------------------------------------------------------------*/
/* Type Definitions */
@ -47,7 +51,7 @@ namespace SHADE
class SH_API ProcessPointsRoutine final : public SHSystemRoutine
{
public:
ProcessPointsRoutine();
ProcessPointsRoutine();
virtual void Execute(double dt) noexcept override final;
};
@ -69,134 +73,201 @@ namespace SHADE
/* Draw Functions */
/*---------------------------------------------------------------------------------*/
/// <summary>
/// Renders a line between two points in world space.
/// Draws a line between two specified points.
/// </summary>
/// <param name="color">Colour of the line.</param>
/// <param name="startPt">First point of the line.</param>
/// <param name="endPt">Second point of the line.</param>
void DrawLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt);
/// <param name="start">Starting point.</param>
/// <param name="end">Ending point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawLine(const SHVec3& start, const SHVec3& end, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a triangle indicated by three points in world space.
/// Draws a set of points as a connected set of lines that loops back.
/// </summary>
/// <param name="color">Colour of the triangle.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the triangle.</param>
/// <param name="pt3">Third point of the triangle.</param>
void DrawTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3);
/// <param name="points">List of points to draw the line across.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawLineLoop(std::initializer_list<SHVec3> points, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a quadrilateral indicated by four points in world space.
/// Draws a set of points as a connected set of lines that loops back.
/// </summary>
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the quadrilateral.</param>
/// <param name="pt3">Third point of the quadrilateral.</param>
/// <param name="pt4">Third point of the quadrilateral.</param>
void DrawQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space.
/// </summary>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointList">List of points for the polygon.</param>
void DrawPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space.
/// </summary>
/// <typeparam name="IterType">Iterator for a STL-like container.</typeparam>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointListBegin">
/// Iterator to the first point of the point container.
/// </param>
/// <param name="pointListEnd">
/// One past last iterator of the point container.
/// </param>
/// <typeparam name="IterType">
/// Type of iterator of the container that contains the points.
/// </typeparam>
/// <param name="pointListBegin">Starting iterator to the line points.</param>
/// <param name="pointListEnd">One past end iterator to the line points.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
template<typename IterType>
void DrawPoly(const SHVec4& color, IterType pointListBegin, IterType pointListEnd);
void DrawLineLoop(IterType pointListBegin, IterType pointListEnd, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe cube centered around the position specified in world space.
/// Draws a triangle from the specified set of points.
/// </summary>
/// <param name="color">Colour of the cube.</param>
/// <param name="pos">Position where the cube wil be centered at.</param>
/// <param name="size">Size of the rendered cube.</param>
void DrawCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size);
/// <param name="p1">1st point.</param>
/// <param name="p2">2nd point.</param>
/// <param name="p3">3rd point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawTri(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe sphere centered around the position specified in world space.
/// Draws a quad from the specified set of points.
/// </summary>
/// <param name="color">Colour of the sphere.</param>
/// <param name="pos">Position where the sphere wil be centered at.</param>
/// <param name="size">Size of the rendered sphere.</param>
void DrawSphere(const SHVec4& color, const SHVec3& pos, double radius);
/// <param name="p1">1st point.</param>
/// <param name="p2">2nd point.</param>
/// <param name="p3">3rd point.</param>
/// <param name="p4">4th point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawQuad(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHVec3& p4, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a 2-dimensional circle.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the circle should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawCircle(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a cube.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the wire cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawWireCube(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a sphere.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawWireSphere(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawCube(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawSphere(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/*---------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/*---------------------------------------------------------------------------------*/
/// <summary>
/// Renders a line between two points in world space that will persist until
/// ClearPersistentDraws() is called. These lines are depth tested.
/// Draws a persistent line between two specified points.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the line.</param>
/// <param name="startPt">First point of the line.</param>
/// <param name="endPt">Second point of the line.</param>
void DrawPersistentLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt);
/// <param name="start">Starting point.</param>
/// <param name="end">Ending point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentLine(const SHVec3& start, const SHVec3& end, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a triangle indicated by three points in world space that will persist
/// until ClearPersistentDraws() is called. These lines are depth tested.
/// Draws a persistent set of points as a connected set of lines that loops back.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the triangle.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the triangle.</param>
/// <param name="pt3">Third point of the triangle.</param>
void DrawPersistentTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3);
/// <param name="points">List of points to draw the line across.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentLineLoop(std::initializer_list<SHVec3> points, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a quadrilateral indicated by four points in world space that will persist
/// until ClearPersistentDraws() is called. These lines are depth tested.
/// Draws a persistent set of points as a connected set of lines that loops back.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the quadrilateral.</param>
/// <param name="pt3">Third point of the quadrilateral.</param>
/// <param name="pt4">Third point of the quadrilateral.</param>
void DrawPersistentQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space that
/// will persist until ClearPersistentDraws() is called. These lines are depth
/// tested.
/// </summary>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointList">List of points for the polygon.</param>
void DrawPersistentPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space that
/// will persist until ClearPersistentDraws() is called. These lines are depth
/// tested.
/// </summary>
/// <typeparam name="IterType">Iterator for a STL-like container.</typeparam>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointListBegin">
/// Iterator to the first point of the point container.
/// </param>
/// <param name="pointListEnd">
/// One past last iterator of the point container.
/// </param>
/// <typeparam name="IterType">
/// Type of iterator of the container that contains the points.
/// </typeparam>
/// <param name="pointListBegin">Starting iterator to the line points.</param>
/// <param name="pointListEnd">One past end iterator to the line points.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
template<typename IterType>
void DrawPersistentPoly(const SHVec4& color, IterType pointListBegin, IterType pointListEnd);
void DrawPersistentLineLoop(IterType pointListBegin, IterType pointListEnd, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe cube centered around the position specified in world space
/// that will persist until ClearPersistentDraws() is called. These lines are depth
/// tested.
/// Draws a persistent triangle from the specified set of points.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the cube.</param>
/// <param name="pos">Position where the cube wil be centered at.</param>
/// <param name="size">Size of the rendered cube.</param>
void DrawPersistentCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size);
/// <param name="p1">1st point.</param>
/// <param name="p2">2nd point.</param>
/// <param name="p3">3rd point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentTri(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe sphere centered around the position specified in world space
/// that will persist until ClearPersistentDraws() is called. These lines are depth
/// tested.
/// Draws a persistent quad from the specified set of points.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the sphere.</param>
/// <param name="pos">Position where the sphere wil be centered at.</param>
/// <param name="size">Size of the rendered sphere.</param>
void DrawPersistentSphere(const SHVec4& color, const SHVec3& pos, double radius);
/// <param name="p1">1st point.</param>
/// <param name="p2">2nd point.</param>
/// <param name="p3">3rd point.</param>
/// <param name="p4">4th point.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentQuad(const SHVec3& p1, const SHVec3& p2, const SHVec3& p3, const SHVec3& p4, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a persistent 2-dimensional circle.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the circle should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentCircle(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a persistent cube.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the wire cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentWireCube(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a persistent sphere.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentWireSphere(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a persistent filled cube.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentCube(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a persistent filled sphere.
/// This will remain drawn until ClearPersistentDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
void DrawPersistentSphere(const SHMatrix& matrix, const SHColour& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Clears any persistent drawn debug primitives.
/// </summary>
@ -206,47 +277,144 @@ namespace SHADE
/*---------------------------------------------------------------------------------*/
/* Type Definitions */
/*---------------------------------------------------------------------------------*/
using TripleBuffer = std::array<Handle<SHVkBuffer>, SHGraphicsConstants::NUM_FRAME_BUFFERS>;
using TripleUInt = std::array<uint32_t , SHGraphicsConstants::NUM_FRAME_BUFFERS>;
using TripleBool = std::array<bool , SHGraphicsConstants::NUM_FRAME_BUFFERS>;
/// <summary>
/// Defines the rendering mode for debug lines.
/// </summary>
enum class LineRenderMode : uint32_t
{
NoDepthTest,
DepthTested,
Count
};
/// <summary>
/// Defines the rendering mode for debug meshes.
/// </summary>
enum class MeshRenderMode : uint32_t
{
FilledNoDepthTest,
FilledDepthTested,
WireNoDepthTest,
WireDepthTested,
Count
};
/// <summary>
/// Defines a coloured Vertex
/// </summary>
struct SH_API PointVertex
{
SHVec4 Position;
SHVec4 Color;
};
using TripleBuffer = std::array<Handle<SHVkBuffer>, SHGraphicsConstants::NUM_FRAME_BUFFERS>;
using TripleUInt = std::array<uint32_t , SHGraphicsConstants::NUM_FRAME_BUFFERS>;
using TripleBool = std::array<bool , SHGraphicsConstants::NUM_FRAME_BUFFERS>;
struct Batch
{
/*-------------------------------------------------------------------------------*/
/* Data Members */
/*-------------------------------------------------------------------------------*/
Handle<SHVkPipeline> Pipeline;
};
struct LinesBatch : public Batch
{
/*-------------------------------------------------------------------------------*/
/* Data Members */
/*-------------------------------------------------------------------------------*/
// CPU Buffers
std::vector<PointVertex> Points;
// GPU Buffers
TripleBuffer VertexBuffers;
TripleUInt NumPoints;
};
struct MeshBatch : public Batch
{
/*-------------------------------------------------------------------------------*/
/* Type Definitions */
/*-------------------------------------------------------------------------------*/
struct MultiDrawSet
{
Handle<SHMesh> Mesh;
std::vector<SHMatrix> InstanceTransforms;
std::vector<SHVec4> InstanceColors;
};
/*-------------------------------------------------------------------------------*/
/* Data Members */
/*-------------------------------------------------------------------------------*/
// CPU Buffers
std::unordered_map<Handle<SHMesh>, MultiDrawSet> SubBatches;
std::vector<SHMatrix> InstanceTransforms;
std::vector<SHVec4> InstanceColors;
std::vector<vk::DrawIndexedIndirectCommand> MDIData;
// GPU Buffers
TripleBuffer MDIBuffer;
TripleBuffer InstanceTransformBuffer;
TripleBuffer InstanceColorBuffer;
};
/*---------------------------------------------------------------------------------*/
/* Constants */
/*---------------------------------------------------------------------------------*/
static constexpr uint32_t MAX_POINTS = 100'000;
static constexpr size_t LINE_MODE_COUNT = static_cast<size_t>(LineRenderMode::Count);
static constexpr size_t MESH_MODE_COUNT = static_cast<size_t>(MeshRenderMode::Count);
/*---------------------------------------------------------------------------------*/
/* Data Members */
/*---------------------------------------------------------------------------------*/
// CPU Buffers
std::vector<PointVertex> points;
std::vector<PointVertex> persistentPoints;
// GPU Buffers
TripleBuffer vertexBuffers;
TripleUInt numPoints;
TripleBuffer persistentVertexBuffers;
TripleUInt numPersistentPoints;
TripleBool persistentBuffersCleared;
// Cached Points for polygon drawing
std::vector<SHVec3> spherePoints;
// References
SHGraphicsSystem* gfxSystem = nullptr;
// Batches
std::array<LinesBatch, LINE_MODE_COUNT> lineBatches;
std::array<LinesBatch, LINE_MODE_COUNT> persistentLineBatches;
std::array<MeshBatch , MESH_MODE_COUNT> meshBatches;
std::array<MeshBatch , MESH_MODE_COUNT> persistentMeshBatches;
// Tracking
TripleBool persistentBuffersUpdated = { true, true, true };
/*---------------------------------------------------------------------------------*/
/* Helper Draw Functions */
/*---------------------------------------------------------------------------------*/
void drawLine(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt);
void drawLineSet(std::vector<PointVertex>& storage, const SHVec4& color, std::initializer_list<SHVec3> pointList);
void drawLine(LinesBatch& batch, const SHVec3& start, const SHVec3& end, const SHColour& color);
template<typename IterType>
void drawLineSet(std::vector<PointVertex>& storage, const SHVec4& color, IterType pointListBegin, IterType pointListEnd);
void drawPoly(std::vector<PointVertex>& storage, const SHVec4& color, std::initializer_list<SHVec3> pointList);
template<typename IterType>
void drawPoly(std::vector<PointVertex>& storage, const SHVec4& color, IterType pointListBegin, IterType pointListEnd);
void drawCube(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& pos, const SHVec3& size);
void drawSphere(std::vector<PointVertex>& storage, const SHVec4& color, const SHVec3& pos, double radius);
void drawLineLoop(LinesBatch& batch, IterType pointListBegin, IterType pointListEnd, const SHColour& color);
void drawMesh(Handle<SHMesh> mesh, MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
void drawWireCube(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
void drawWireSphere(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
void drawCube(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
void drawSphere(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
void drawCircle(MeshBatch& batch, const SHMatrix& transformMatrix, const SHColour& color);
/*---------------------------------------------------------------------------------*/
/* Helper Batch Functions - Lines */
/*---------------------------------------------------------------------------------*/
LinesBatch& getLineBatch(bool depthTested);
LinesBatch& getPersistentLineBatch(bool depthTested);
void createLineBatches();
void initBatch(LinesBatch& batch, Handle<SHVkPipeline> pipeline, const std::string& vertexBufferName);
void prepareBatch(LinesBatch& batch, uint32_t frameIndex);
void renderBatch(LinesBatch& batch, Handle<SHVkCommandBuffer> cmdBuffer, uint32_t frameIndex);
void destroyBatch(LinesBatch& batch);
void destroyLineBatches();
/*---------------------------------------------------------------------------------*/
/* Helper Batch Functions - Meshes */
/*---------------------------------------------------------------------------------*/
MeshBatch& getMeshBatch(bool filled, bool depthTested);
MeshBatch& getPersistentMeshBatch(bool filled, bool depthTested);
void createMeshBatches();
void initBatch(MeshBatch& batch, Handle<SHVkPipeline> pipeline);
void prepareBatch(MeshBatch& batch, uint32_t frameIndex);
void renderBatch(MeshBatch& batch, Handle<SHVkCommandBuffer> cmdBuffer, uint32_t frameIndex);
void destroyBatch(MeshBatch& batch);;
void destroyMeshBatches();
/*---------------------------------------------------------------------------------*/
/* Helper Functions */
/*---------------------------------------------------------------------------------*/
void markPersistentDrawsDirty();
};
}

View File

@ -17,73 +17,44 @@ namespace SHADE
{
/*-----------------------------------------------------------------------------------*/
/* Draw Functions */
/*-----------------------------------------------------------------------------------*/
/*-----------------------------------------------------------------------------------*/
template<typename IterType>
void SHDebugDrawSystem::DrawPoly(const SHVec4& color, IterType pointListBegin, IterType pointListEnd)
void SHDebugDrawSystem::DrawLineLoop(IterType pointListBegin, IterType pointListEnd, const SHColour& color, bool depthTested)
{
drawPoly(points, color, pointListBegin, pointListEnd);
// Get Batch
drawLineLoop(getLineBatch(depthTested), pointListBegin, pointListEnd, color);
}
template<typename IterType>
void SHADE::SHDebugDrawSystem::DrawPersistentLineLoop(IterType pointListBegin, IterType pointListEnd, const SHColour& color , bool depthTested)
{
// Get Batch
drawLineLoop(getPersistentLineBatch(depthTested), pointListBegin, pointListEnd, color);
}
/*-----------------------------------------------------------------------------------*/
/* Helper Draw Functions */
/*-----------------------------------------------------------------------------------*/
template<typename IterType>
void SHDebugDrawSystem::drawLineSet(std::vector<PointVertex>& storage, const SHVec4& color, IterType pointListBegin, IterType pointListEnd)
void SHDebugDrawSystem::drawLineLoop(LinesBatch& batch, IterType pointListBegin, IterType pointListEnd, const SHColour& color)
{
// Ensure dereferenced type is SHVec3
static_assert(std::is_same_v<SHVec3, std::remove_cvref_t<decltype(*pointListBegin)>>, "Parameters to DrawPoly must be SHVec3.");
// Check if points exceeded max
if (storage.size() > MAX_POINTS)
{
SHLOG_WARNING("[DebugDraw] Exceeded maximum size of drawable debug elements.");
return;
}
const size_t POINTS_COUNT = pointListEnd - pointListBegin;
static_assert(std::is_same_v<SHVec3, std::remove_cvref_t<decltype(*pointListBegin)>>, "Parameters to DrawLineLoop must be SHVec3.");
// Invalid polygon
const size_t POINTS_COUNT = pointListEnd - pointListBegin;
if (POINTS_COUNT < 2)
{
SHLOG_WARNING("[SHDebugDraw] Invalid polygon provided to DrawPoly().");
return;
}
const size_t POINTS_ROUNDED_COUNT = POINTS_COUNT / 2 * 2;
for (auto pointIter = pointListBegin; pointIter != (pointListBegin + POINTS_ROUNDED_COUNT); ++pointIter)
{
storage.emplace_back(PointVertex{ *pointIter, color });
}
}
template<typename IterType>
void SHDebugDrawSystem::drawPoly(std::vector<PointVertex>& storage, const SHVec4& color, IterType pointListBegin, IterType pointListEnd)
{
// Ensure dereferenced type is SHVec3
static_assert(std::is_same_v<SHVec3, std::remove_cvref_t<decltype(*pointListBegin)>>, "Parameters to DrawPoly must be SHVec3.");
// Check if points exceeded max
if (storage.size() > MAX_POINTS)
{
SHLOG_WARNING("[DebugDraw] Exceeded maximum size of drawable debug elements.");
return;
}
const size_t POINTS_COUNT = pointListEnd - pointListBegin;
// Invalid polygon
if (POINTS_COUNT < 2)
{
SHLOG_WARNING("[SHDebugDraw] Invalid polygon provided to DrawPoly().");
SHLOG_WARNING("[SHDebugDrawSystem] Insufficient points provided to drawLineLoop().");
return;
}
// Trace the polygon
for (auto pointIter = pointListBegin + 1; pointIter != pointListEnd; ++pointIter)
{
storage.emplace_back(PointVertex{ *(pointIter - 1), color });
storage.emplace_back(PointVertex{ *pointIter , color });
drawLine(batch, *(pointIter - 1), *pointIter, color);
}
// Close the line loop
storage.emplace_back(PointVertex{ *(pointListEnd - 1), color });
storage.emplace_back(PointVertex{ *pointListBegin , color });
drawLine(batch, *(pointListEnd - 1), *pointListBegin, color);
}
}

View File

@ -124,20 +124,12 @@ namespace SHADE
SHFreetypeInstance::Init();
//SHAssetManager::CompileAsset("../../Assets/Shaders/Text_VS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/Text_FS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/TestCube_VS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/UI_VS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/UI_FS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Models/Quad.gltf", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/ToSwapchain_VS.glsl", false);
//SHAssetManager::CompileAsset("../../Assets/Shaders/ToSwapchain_FS.glsl", false);
// Load Built In Shaders
static constexpr AssetID VS_DEFAULT = 39210065; defaultVertShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(VS_DEFAULT);
static constexpr AssetID FS_DEFAULT = 46377769; defaultFragShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(FS_DEFAULT);
static constexpr AssetID VS_DEBUG = 48002439; debugVertShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(VS_DEBUG);
static constexpr AssetID FS_DEBUG = 36671027; debugFragShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(FS_DEBUG);
static constexpr AssetID VS_DEBUG_MESH = 42127043; debugMeshVertShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(VS_DEBUG_MESH);
static constexpr AssetID CS_COMPOSITE = 45072428; deferredCompositeShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(CS_COMPOSITE);
static constexpr AssetID SSAO = 38430899; ssaoShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(SSAO);
static constexpr AssetID SSAO_BLUR = 39760835; ssaoBlurShader = SHResourceManager::LoadOrGet<SHVkShaderModule>(SSAO_BLUR);
@ -335,14 +327,31 @@ namespace SHADE
screenRenderer->SetCamera(screenCamera);
screenRenderer->SetCameraDirector(worldCameraDirector);
// Create debug draw pipeline
debugDrawPipeline = createDebugDrawPipeline(debugDrawNode->GetRenderpass(), debugDrawSubpass);
debugDrawPipeline = createDebugDrawPipeline(debugDrawNode->GetRenderpass(), debugDrawSubpass, false, false, false);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawPipeline->GetVkPipeline(), "[Pipeline] Debug Draw");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline Layout] Debug Draw Pipeline Layout");
debugDrawDepthPipeline = createDebugDrawPipeline(debugDrawNodeDepth->GetRenderpass(), debugDrawDepthSubpass);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline Layout] Debug Draw");
debugDrawDepthPipeline = createDebugDrawPipeline(debugDrawNodeDepth->GetRenderpass(), debugDrawDepthSubpass, false, false, false);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawDepthPipeline->GetVkPipeline(), "[Pipeline Layout] Debug Draw with Depth Test");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawDepthPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline] Debug Draw with Depth Test Pipeline Layout");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawDepthPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline] Debug Draw with Depth Test");
debugDrawLineMeshPipeline = createDebugDrawPipeline(debugDrawNode->GetRenderpass(), debugDrawSubpass, false, false, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawLineMeshPipeline->GetVkPipeline(), "[Pipeline] Debug Draw Line Mesh");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawLineMeshPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline Layout] Debug Draw Line Mesh");
debugDrawLineMeshDepthPipeline = createDebugDrawPipeline(debugDrawNodeDepth->GetRenderpass(), debugDrawDepthSubpass, false, false, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawLineMeshDepthPipeline->GetVkPipeline(), "[Pipeline Layout] Debug Draw Line Mesh with Depth Test");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawLineMeshDepthPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline] Debug Draw Line Mesh with Depth Test");
debugDrawWireMeshPipeline = createDebugDrawPipeline(debugDrawNode->GetRenderpass(), debugDrawSubpass, false, true, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawWireMeshPipeline->GetVkPipeline(), "[Pipeline] Debug Draw Wire Mesh");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawWireMeshPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline Layout] Debug Draw Wire Mesh");
debugDrawWireMeshDepthPipeline = createDebugDrawPipeline(debugDrawNodeDepth->GetRenderpass(), debugDrawDepthSubpass, false, true, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawWireMeshDepthPipeline->GetVkPipeline(), "[Pipeline Layout] Debug Draw Wire Mesh with Depth Test");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawWireMeshDepthPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline] Debug Draw Wire Mesh with Depth Test");
debugDrawFilledPipeline = createDebugDrawPipeline(debugDrawNode->GetRenderpass(), debugDrawSubpass, true, true, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawFilledPipeline->GetVkPipeline(), "[Pipeline] Debug Draw Filled Mesh");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawFilledPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline Layout] Debug Draw Filled Mesh");
debugDrawFilledDepthPipeline = createDebugDrawPipeline(debugDrawNodeDepth->GetRenderpass(), debugDrawDepthSubpass, true, true, true);
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipeline, debugDrawFilledDepthPipeline->GetVkPipeline(), "[Pipeline Layout] Debug Draw Filled Mesh with Depth Test");
SET_VK_OBJ_NAME(device, vk::ObjectType::ePipelineLayout, debugDrawFilledDepthPipeline->GetPipelineLayout()->GetVkPipelineLayout(), "[Pipeline] Debug Draw Filled Mesh with Depth Test");
}
void SHGraphicsSystem::InitMiddleEnd(void) noexcept
@ -405,6 +414,8 @@ namespace SHADE
// Create default meshes
primitiveMeshes[static_cast<int>(PrimitiveType::Cube)] = SHPrimitiveGenerator::Cube(meshLibrary);
primitiveMeshes[static_cast<int>(PrimitiveType::Sphere)] = SHPrimitiveGenerator::Sphere(meshLibrary);
primitiveMeshes[static_cast<int>(PrimitiveType::LineCube)] = SHPrimitiveGenerator::LineCube(meshLibrary);
primitiveMeshes[static_cast<int>(PrimitiveType::LineCircle)] = SHPrimitiveGenerator::LineCircle(meshLibrary);
BuildMeshBuffers();
// Create default materials
@ -829,6 +840,8 @@ namespace SHADE
{
case PrimitiveType::Cube:
case PrimitiveType::Sphere:
case PrimitiveType::LineCube:
case PrimitiveType::LineCircle:
return primitiveMeshes[static_cast<int>(type)];
default:
return {};
@ -1083,34 +1096,68 @@ namespace SHADE
return worldRenderGraph->GetNode(G_BUFFER_RENDER_GRAPH_NODE_NAME.data());
}
SHADE::SHFontLibrary const& SHGraphicsSystem::GetFontLibrary(void) const noexcept
Handle<SHVkPipeline> SHGraphicsSystem::GetDebugDrawPipeline(DebugDrawPipelineType type) const noexcept
{
switch (type)
{
case DebugDrawPipelineType::LineNoDepthTest: return debugDrawPipeline;
case DebugDrawPipelineType::LineDepthTested: return debugDrawDepthPipeline;
case DebugDrawPipelineType::LineMeshNoDepthTest: return debugDrawLineMeshPipeline;
case DebugDrawPipelineType::LineMeshDepthTested: return debugDrawLineMeshDepthPipeline;
case DebugDrawPipelineType::WireMeshNoDepthTest: return debugDrawWireMeshPipeline;
case DebugDrawPipelineType::WireMeshDepthTested: return debugDrawWireMeshDepthPipeline;
case DebugDrawPipelineType::FilledMeshNoDepthTest: return debugDrawFilledPipeline;
case DebugDrawPipelineType::FilledMeshDepthTested: return debugDrawFilledDepthPipeline;
}
SHLOG_WARNING("[SHGraphicsSystem] Attempted to retrieve an invalid Debug Draw Pipeline. Default Debug Draw Pipeline returned.");
return debugDrawPipeline;
}
SHFontLibrary const& SHGraphicsSystem::GetFontLibrary(void) const noexcept
{
return fontLibrary;
}
Handle<SHVkPipeline> SHGraphicsSystem::createDebugDrawPipeline(Handle<SHVkRenderpass> renderPass, Handle<SHSubpass> subpass)
Handle<SHVkPipeline> SHGraphicsSystem::createDebugDrawPipeline(Handle<SHVkRenderpass> renderPass, Handle<SHSubpass> subpass, bool filled, bool triMesh, bool instanced)
{
auto pipelineLayout = resourceManager.Create<SHVkPipelineLayout>
(
device, SHPipelineLayoutParams
{
.shaderModules = { debugVertShader, debugFragShader },
.shaderModules = { (instanced ? debugMeshVertShader : debugVertShader) , debugFragShader },
.globalDescSetLayouts = SHGraphicsGlobalData::GetDescSetLayouts()
}
);
auto pipeline = resourceManager.Create<SHVkPipeline>(device, pipelineLayout, nullptr, renderPass, subpass);
pipeline->GetPipelineState().SetRasterizationState(SHRasterizationState
{
.polygonMode = vk::PolygonMode::eLine,
.cull_mode = vk::CullModeFlagBits::eNone
.polygonMode = filled ? vk::PolygonMode::eFill : vk::PolygonMode::eLine,
.cull_mode = filled ? vk::CullModeFlagBits::eBack : vk::CullModeFlagBits::eNone
});
pipeline->GetPipelineState().SetInputAssemblyState(SHInputAssemblyState
{
.topology = vk::PrimitiveTopology::eLineList
.topology = triMesh ? vk::PrimitiveTopology::eTriangleList : vk::PrimitiveTopology::eLineList
});
SHVertexInputState debugDrawVertexInputState;
debugDrawVertexInputState.AddBinding(false, true, { SHVertexAttribute(SHAttribFormat::FLOAT_4D), SHVertexAttribute(SHAttribFormat::FLOAT_4D) });
if (instanced)
{
debugDrawVertexInputState.AddBinding(false, false, { SHVertexAttribute(SHAttribFormat::FLOAT_3D) }); // 0: Vertex World Space Position
debugDrawVertexInputState.AddBinding(true , true , { SHVertexAttribute(SHAttribFormat::MAT_4D) }); // 1: Instance Transform Matrix (4 Slots)
debugDrawVertexInputState.AddBinding(true , true , { SHVertexAttribute(SHAttribFormat::FLOAT_4D) }); // 5: Instance Color
}
else
{
debugDrawVertexInputState.AddBinding
(
false, true,
{
SHVertexAttribute(SHAttribFormat::FLOAT_4D), // Vertex World Space Position
SHVertexAttribute(SHAttribFormat::FLOAT_4D) // Vertex Color
}
);
}
pipeline->GetPipelineState().SetVertexInputState(debugDrawVertexInputState);
SHColorBlendState colorBlendState{};
colorBlendState.logic_op_enable = VK_FALSE;

View File

@ -70,9 +70,23 @@ namespace SHADE
enum class PrimitiveType
{
Cube,
Sphere
Sphere,
LineCube,
LineCircle
};
static constexpr int MAX_PRIMITIVE_TYPES = 2;
static constexpr int MAX_PRIMITIVE_TYPES = 4;
enum class DebugDrawPipelineType
{
LineNoDepthTest,
LineDepthTested,
LineMeshNoDepthTest,
LineMeshDepthTested,
WireMeshNoDepthTest,
WireMeshDepthTested,
FilledMeshNoDepthTest,
FilledMeshDepthTested
};
static constexpr int MAX_DEBUG_DRAW_PIPELINE_TYPES = 8;
/***********************************************************************************/
/*!
@ -371,10 +385,10 @@ namespace SHADE
Handle<SHMousePickSystem> GetMousePickSystem(void) const noexcept {return mousePickSystem;};
Handle<SHPostOffscreenRenderSystem> GetPostOffscreenRenderSystem(void) const noexcept {return postOffscreenRender;};
Handle<SHRenderGraphNode> GetPrimaryRenderpass() const noexcept;
Handle<SHVkPipeline> GetDebugDrawPipeline(void) const noexcept { return debugDrawPipeline; }
Handle<SHVkPipeline> GetDebugDrawDepthPipeline(void) const noexcept { return debugDrawDepthPipeline; }
Handle<SHVkPipeline> GetDebugDrawPipeline(DebugDrawPipelineType type) const noexcept;
uint32_t GetCurrentFrameIndex(void) const noexcept { return renderContext.GetCurrentFrame(); }
SHFontLibrary const& GetFontLibrary (void) const noexcept;
const SHMeshLibrary& GetMeshLibrary() const noexcept { return meshLibrary; };
/*-----------------------------------------------------------------------------*/
/* Getters */
@ -439,6 +453,7 @@ namespace SHADE
Handle<SHVkShaderModule> defaultFragShader;
Handle<SHVkShaderModule> debugVertShader;
Handle<SHVkShaderModule> debugFragShader;
Handle<SHVkShaderModule> debugMeshVertShader;
Handle<SHVkShaderModule> deferredCompositeShader;
Handle<SHVkShaderModule> ssaoShader;
Handle<SHVkShaderModule> ssaoBlurShader;
@ -454,6 +469,12 @@ namespace SHADE
Handle<SHMaterial> defaultMaterial;
Handle<SHVkPipeline> debugDrawPipeline;
Handle<SHVkPipeline> debugDrawDepthPipeline;
Handle<SHVkPipeline> debugDrawLineMeshPipeline;
Handle<SHVkPipeline> debugDrawLineMeshDepthPipeline;
Handle<SHVkPipeline> debugDrawWireMeshPipeline;
Handle<SHVkPipeline> debugDrawWireMeshDepthPipeline;
Handle<SHVkPipeline> debugDrawFilledPipeline;
Handle<SHVkPipeline> debugDrawFilledDepthPipeline;
// Built-In Textures
Handle<SHTexture> defaultTexture;
@ -482,6 +503,6 @@ namespace SHADE
/*---------------------------------------------------------------------------------*/
/* Helper Functions */
/*---------------------------------------------------------------------------------*/
Handle<SHVkPipeline> createDebugDrawPipeline(Handle<SHVkRenderpass> renderPass, Handle<SHSubpass> subpass);
Handle<SHVkPipeline> createDebugDrawPipeline(Handle<SHVkRenderpass> renderPass, Handle<SHSubpass> subpass, bool filled, bool triMesh, bool instanced);
};
}

View File

@ -10,9 +10,13 @@ Copyright (C) 2022 DigiPen Institute of Technology.
Reproduction or disclosure of this file or its contents without the prior written consent
of DigiPen Institute of Technology is prohibited.
*//*************************************************************************************/
// Precompiled Header
#include "SHpch.h"
// Primary Includes
#include "SHPrimitiveGenerator.h"
// STL Includes
#include <numbers>
// Project Includes
#include "Graphics/MiddleEnd/Interface/SHGraphicsSystem.h"
#include "Graphics/MiddleEnd/Interface/SHMeshLibrary.h"
@ -23,6 +27,8 @@ namespace SHADE
/*-----------------------------------------------------------------------------------*/
SHMeshData SHPrimitiveGenerator::cubeMesh;
SHMeshData SHPrimitiveGenerator::sphereMesh;
SHMeshData SHPrimitiveGenerator::lineCubeMesh;
SHMeshData SHPrimitiveGenerator::lineCircleMesh;
/*-----------------------------------------------------------------------------------*/
/* Primitive Generation Functions */
@ -207,14 +213,14 @@ namespace SHADE
return addMeshDataTo(cubeMesh, meshLibrary);
}
Handle<SHADE::SHMesh> SHPrimitiveGenerator::Cube(SHGraphicsSystem& gfxSystem) noexcept
Handle<SHMesh> SHPrimitiveGenerator::Cube(SHGraphicsSystem& gfxSystem) noexcept
{
if (cubeMesh.VertexPositions.empty())
cubeMesh = Cube();
return addMeshDataTo(cubeMesh, gfxSystem);
}
SHADE::SHMeshData SHPrimitiveGenerator::Sphere() noexcept
SHMeshData SHPrimitiveGenerator::Sphere() noexcept
{
SHMeshData meshData;
@ -265,7 +271,7 @@ namespace SHADE
return meshData;
}
SHADE::Handle<SHADE::SHMesh> SHPrimitiveGenerator::Sphere(SHMeshLibrary& meshLibrary) noexcept
Handle<SHMesh> SHPrimitiveGenerator::Sphere(SHMeshLibrary& meshLibrary) noexcept
{
if (sphereMesh.VertexPositions.empty())
sphereMesh = Sphere();
@ -273,7 +279,7 @@ namespace SHADE
return addMeshDataTo(sphereMesh, meshLibrary);
}
SHADE::Handle<SHADE::SHMesh> SHPrimitiveGenerator::Sphere(SHGraphicsSystem& gfxSystem) noexcept
Handle<SHMesh> SHPrimitiveGenerator::Sphere(SHGraphicsSystem& gfxSystem) noexcept
{
if (sphereMesh.VertexPositions.empty())
sphereMesh = Sphere();
@ -281,6 +287,111 @@ namespace SHADE
return addMeshDataTo(sphereMesh, gfxSystem);
}
SHMeshData SHPrimitiveGenerator::LineCube() noexcept
{
SHMeshData mesh;
mesh.VertexPositions =
{
// Front
SHVec3(-0.5f, -0.5f, 0.5f),
SHVec3( 0.5f, -0.5f, 0.5f),
SHVec3( 0.5f, 0.5f, 0.5f),
SHVec3(-0.5f, 0.5f, 0.5f),
// Back
SHVec3(-0.5f, -0.5f, -0.5f),
SHVec3( 0.5f, -0.5f, -0.5f),
SHVec3( 0.5f, 0.5f, -0.5f),
SHVec3(-0.5f, 0.5f, -0.5f)
};
mesh.VertexNormals.resize(mesh.VertexPositions.size());
mesh.VertexTangents.resize(mesh.VertexPositions.size());
mesh.VertexTexCoords.resize(mesh.VertexPositions.size());
mesh.Indices =
{
// Front
0, 1,
1, 2,
2, 3,
3, 0,
// Connectors
0, 4,
1, 5,
2, 6,
3, 7,
// Back
4, 5,
5, 6,
6, 7,
7, 4,
};
return mesh;
}
Handle<SHMesh> SHPrimitiveGenerator::LineCube(SHMeshLibrary& meshLibrary) noexcept
{
if (lineCubeMesh.VertexPositions.empty())
lineCubeMesh = LineCube();
return addMeshDataTo(lineCubeMesh, meshLibrary);
}
Handle<SHMesh> SHPrimitiveGenerator::LineCube(SHGraphicsSystem& gfxSystem) noexcept
{
if (lineCubeMesh.VertexPositions.empty())
lineCubeMesh = LineCube();
return addMeshDataTo(lineCubeMesh, gfxSystem);
}
SHMeshData SHPrimitiveGenerator::LineCircle() noexcept
{
SHMeshData mesh;
// Generate points of the circle
static constexpr int SPLITS = 36;
static constexpr float ANGLE_INCREMENTS = (std::numbers::pi_v<float> * 2.0f) / static_cast<float>(SPLITS);
for (int i = 0; i < SPLITS; ++i)
{
const float ANGLE = ANGLE_INCREMENTS * i;
mesh.VertexPositions.emplace_back(cos(ANGLE) * 0.5f, sin(ANGLE) * 0.5f, 0.0f);
}
// Generate lines of the circle
for (int i = 1; i < SPLITS; ++i)
{
mesh.Indices.emplace_back(static_cast<uint32_t>(i - 1));
mesh.Indices.emplace_back(static_cast<uint32_t>(i));
}
// Last line to complete the circle
mesh.Indices.emplace_back(static_cast<uint32_t>(SPLITS - 1));
mesh.Indices.emplace_back(static_cast<uint32_t>(0));
mesh.VertexNormals.resize(mesh.VertexPositions.size());
mesh.VertexTangents.resize(mesh.VertexPositions.size());
mesh.VertexTexCoords.resize(mesh.VertexPositions.size());
return mesh;
}
Handle<SHMesh> SHPrimitiveGenerator::LineCircle(SHMeshLibrary& meshLibrary) noexcept
{
if (lineCircleMesh.VertexPositions.empty())
lineCircleMesh = LineCircle();
return addMeshDataTo(lineCircleMesh, meshLibrary);
}
Handle<SHMesh> SHPrimitiveGenerator::LineCircle(SHGraphicsSystem& gfxSystem) noexcept
{
if (lineCircleMesh.VertexPositions.empty())
lineCircleMesh = LineCircle();
return addMeshDataTo(lineCircleMesh, gfxSystem);
}
/*-----------------------------------------------------------------------------------*/
/* Helper Functions */
/*-----------------------------------------------------------------------------------*/
@ -288,7 +399,7 @@ namespace SHADE
{
return meshLibrary.AddMesh
(
static_cast<uint32_t>(meshData.VertexPositions.size()),
static_cast<uint32_t>(meshData.VertexPositions.size()),
meshData.VertexPositions.data(),
meshData.VertexTexCoords.data(),
meshData.VertexTangents.data(),
@ -302,12 +413,12 @@ namespace SHADE
{
return gfxSystem.AddMesh
(
static_cast<uint32_t>(meshData.VertexPositions.size()),
static_cast<uint32_t>(meshData.VertexPositions.size()),
meshData.VertexPositions.data(),
meshData.VertexTexCoords.data(),
meshData.VertexTangents.data(),
meshData.VertexNormals.data(),
static_cast<uint32_t>(meshData.Indices.size()),
static_cast<uint32_t>(meshData.Indices.size()),
meshData.Indices.data()
);
}

View File

@ -43,7 +43,7 @@ namespace SHADE
/*---------------------------------------------------------------------------------*/
/* Primitive Generation Functions */
/*---------------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------------*/
/***********************************************************************************/
/*!
\brief
@ -116,6 +116,84 @@ namespace SHADE
*/
/***********************************************************************************/
[[nodiscard]] static Handle<SHMesh> Sphere(SHGraphicsSystem& gfxSystem) noexcept;
/***********************************************************************************/
/*!
\brief
Produces a cube that is comprised only of lines with no diagonal lines and store
the data in a SHMeshData object.
\return
SHMeshData object containing vertex data for the line cube.
*/
/***********************************************************************************/
[[nodiscard]] static SHMeshData LineCube() noexcept;
/***********************************************************************************/
/*!
\brief
Produces a line cube and constructs a SHMesh using the SHGraphicsSystem provided.
\param meshLibrary
Reference to the SHMeshLibrary to produce and store a line cube mesh in.
\return
SHMesh object that points to the generated line cube mesh in the SHMeshLibrary.
*/
/***********************************************************************************/
[[nodiscard]] static Handle<SHMesh> LineCube(SHMeshLibrary& meshLibrary) noexcept;
/***********************************************************************************/
/*!
\brief
Produces a line cube and constructs a SHMesh using the SHGraphicsSystem provided.
\param gfxSystem
Reference to the SHGraphicsSystem to produce and store a line cube mesh in.
\return
SHMesh object that points to the generated line cube mesh in the
SHGraphicsSystem.
*/
/***********************************************************************************/
[[nodiscard]] static Handle<SHMesh> LineCube(SHGraphicsSystem& gfxSystem) noexcept;
/***********************************************************************************/
/*!
\brief
Produces a circle that is comprised only of lines with no diagonal lines and
store the data in a SHMeshData object.
\return
SHMeshData object containing vertex data for the line circle.
*/
/***********************************************************************************/
[[nodiscard]] static SHMeshData LineCircle() noexcept;
/***********************************************************************************/
/*!
\brief
Produces a line circle and constructs a SHMesh using the SHGraphicsSystem
provided.
\param meshLibrary
Reference to the SHMeshLibrary to produce and store a line circle mesh in.
\return
SHMesh object that points to the generated line circle mesh in the SHMeshLibrary.
*/
/***********************************************************************************/
[[nodiscard]] static Handle<SHMesh> LineCircle(SHMeshLibrary& meshLibrary) noexcept;
/***********************************************************************************/
/*!
\brief
Produces a line circle and constructs a SHMesh using the SHGraphicsSystem
provided.
\param gfxSystem
Reference to the SHGraphicsSystem to produce and store a line circle mesh in.
\return
SHMesh object that points to the generated line circle mesh in the
SHGraphicsSystem.
*/
/***********************************************************************************/
[[nodiscard]] static Handle<SHMesh> LineCircle(SHGraphicsSystem& gfxSystem) noexcept;
private:
/*---------------------------------------------------------------------------------*/
@ -129,5 +207,7 @@ namespace SHADE
/*---------------------------------------------------------------------------------*/
static SHMeshData cubeMesh;
static SHMeshData sphereMesh;
static SHMeshData lineCubeMesh;
static SHMeshData lineCircleMesh;
};
}

View File

@ -195,7 +195,7 @@ namespace SHADE
const auto& TRI_ARRAY = rp3dRenderer->getTrianglesArray();
for (int i = 0; i < NUM_TRIS; ++i)
debugRenderer->DrawTri(SHColour::RED, TRI_ARRAY[i].point1, TRI_ARRAY[i].point2, TRI_ARRAY[i].point3);
debugRenderer->DrawTri(TRI_ARRAY[i].point1, TRI_ARRAY[i].point2, TRI_ARRAY[i].point3, SHColour::RED);
}
#else
@ -207,7 +207,7 @@ namespace SHADE
const auto& TRI_ARRAY = rp3dRenderer->getTrianglesArray();
for (int i = 0; i < NUM_TRIS; ++i)
debugRenderer->DrawTri(SHColour::RED, TRI_ARRAY[i].point1, TRI_ARRAY[i].point2, TRI_ARRAY[i].point3);
debugRenderer->DrawTri(TRI_ARRAY[i].point1, TRI_ARRAY[i].point2, TRI_ARRAY[i].point3, SHColour::RED);
#endif
}
@ -225,7 +225,7 @@ namespace SHADE
const auto& LINE_ARRAY = rp3dRenderer->getLinesArray();
for (int i = 0; i < NUM_LINES; ++i)
debugRenderer->DrawLine(SHColour::RED, LINE_ARRAY[i].point1, LINE_ARRAY[i].point2);
debugRenderer->DrawLine(LINE_ARRAY[i].point1, LINE_ARRAY[i].point2, SHColour::RED);
}
#else
@ -237,7 +237,7 @@ namespace SHADE
const auto& LINE_ARRAY = rp3dRenderer->getLinesArray();
for (int i = 0; i < NUM_LINES; ++i)
debugRenderer->DrawLine(SHColour::RED, LINE_ARRAY[i].point1, LINE_ARRAY[i].point2);
debugRenderer->DrawLine(LINE_ARRAY[i].point1, LINE_ARRAY[i].point2, SHColour::RED);
#endif
}
@ -261,7 +261,7 @@ namespace SHADE
const float RENDER_DIST = raycastResult.distance == std::numeric_limits<float>::infinity() ? SHRay::MAX_RAYCAST_DIST : raycastResult.distance;
const SHVec3 END_POS = ray.position + (ray.direction * RENDER_DIST);
debugRenderer->DrawLine(RAY_COLOUR, ray.position, END_POS);
debugRenderer->DrawLine(ray.position, END_POS, RAY_COLOUR);
}
}
@ -306,16 +306,16 @@ namespace SHADE
transformedVertices[IDX2] = SHVec3::Transform(boxVertices[IDX2], FINAL_TRS);
// Draw 4 line to connect the quads
debugRenderer->DrawLine(COLLIDER_COLOUR, transformedVertices[IDX1], transformedVertices[IDX2]);
debugRenderer->DrawLine(transformedVertices[IDX1], transformedVertices[IDX2], COLLIDER_COLOUR);
}
// A, B, C, D
std::array backQuad { transformedVertices[0], transformedVertices[1], transformedVertices[3], transformedVertices[2] };
debugRenderer->DrawPoly(COLLIDER_COLOUR, backQuad.begin(), backQuad.end());
debugRenderer->DrawLineLoop(backQuad.begin(), backQuad.end(), COLLIDER_COLOUR);
// E, F, G, H
std::array frontQuad { transformedVertices[4], transformedVertices[5], transformedVertices[7], transformedVertices[6] };
debugRenderer->DrawPoly(COLLIDER_COLOUR, frontQuad.begin(), frontQuad.end());
debugRenderer->DrawLineLoop(frontQuad.begin(), frontQuad.end(), COLLIDER_COLOUR);
}
void SHPhysicsDebugDrawSystem::debugDrawSphere(SHDebugDrawSystem* debugRenderer, const SHColliderComponent& colliderComponent, const SHCollisionShape& collisionShape) noexcept
@ -327,8 +327,9 @@ namespace SHADE
// Calculate final position & orientation
const SHQuaternion FINAL_ROT = colliderComponent.GetOrientation() * SHQuaternion::FromEuler(collisionShape.GetRotationOffset());
const SHMatrix TR = SHMatrix::Rotate(FINAL_ROT) * SHMatrix::Translate(colliderComponent.GetPosition());
debugRenderer->DrawSphere(COLLIDER_COLOUR, SHVec3::Transform(collisionShape.GetPositionOffset(), TR), SPHERE->GetWorldRadius());
/* #KWFix */
//debugRenderer->DrawSphere(COLLIDER_COLOUR, SHVec3::Transform(collisionShape.GetPositionOffset(), TR), SPHERE->GetWorldRadius());
}
} // namespace SHADE

View File

@ -186,6 +186,27 @@ namespace SHADE
return NODE_ITER->second->GetChildren();
}
bool SHSceneGraph::IsActive(EntityID entityID) const noexcept
{
////////////////////////////////////////
// Error handling
if (!SHEntityManager::IsValidEID(entityID))
{
SHLOG_ERROR("Entity {} is invalid!", entityID)
return false;
}
const auto NODE_ITER = entityNodeMap.find(entityID);
if (NODE_ITER == entityNodeMap.end())
{
SHLOG_ERROR("Entity {} cannot be found in the scene!", entityID)
return false;
}
////////////////////////////////////////
return NODE_ITER->second->IsActive();
}
bool SHSceneGraph::IsActiveInHierarchy(EntityID entityID) const noexcept
{
////////////////////////////////////////
@ -204,24 +225,7 @@ namespace SHADE
}
////////////////////////////////////////
// Recurse up the tree until the root. If any parent is inactive, this node is inactive in the hierarchy.
const SHSceneNode* PARENT_NODE = NODE_ITER->second->parent;
while (PARENT_NODE->GetEntityID() != root->GetEntityID())
{
if (!PARENT_NODE->IsActive())
return false;
if (!PARENT_NODE->parent)
{
SHLOGV_ERROR("Entity {}'s node that is not the root has no parent!", PARENT_NODE->GetEntityID())
return false;
}
PARENT_NODE = PARENT_NODE->parent;
}
return true;
return NODE_ITER->second->IsActiveInHierarchy();
}
/*-----------------------------------------------------------------------------------*/
@ -306,6 +310,27 @@ namespace SHADE
SHEventManager::BroadcastEvent<SHSceneGraphChangeParentEvent>(EVENT_DATA, SH_SCENEGRAPH_CHANGE_PARENT_EVENT);
}
void SHSceneGraph::SetActive(EntityID entityID, bool isActive) noexcept
{
////////////////////////////////////////
// Error handling
if (!SHEntityManager::IsValidEID(entityID))
{
SHLOG_ERROR("Entity {} is invalid!", entityID)
return;
}
const auto NODE_ITER = entityNodeMap.find(entityID);
if (NODE_ITER == entityNodeMap.end())
{
SHLOG_ERROR("Entity {} cannot be found in the scene!", entityID)
return;
}
////////////////////////////////////////
NODE_ITER->second->SetActive(isActive);
}
/*-----------------------------------------------------------------------------------*/
/* Public Function Member Definitions */
/*-----------------------------------------------------------------------------------*/

View File

@ -58,6 +58,7 @@ namespace SHADE
[[nodiscard]] SHSceneNode* GetChild (EntityID entityID, EntityID childEntityID) const noexcept;
[[nodiscard]] const std::vector<SHSceneNode*>& GetChildren (EntityID entityID) const noexcept;
[[nodiscard]] bool IsActive (EntityID entityID) const noexcept;
[[nodiscard]] bool IsActiveInHierarchy (EntityID entityID) const noexcept;
/*---------------------------------------------------------------------------------*/
@ -67,6 +68,8 @@ namespace SHADE
void SetParent (EntityID entityID, SHSceneNode* newParent) noexcept;
void SetParent (EntityID entityID, EntityID newParent) noexcept;
void SetActive (EntityID entityID, bool isActive) noexcept;
/*---------------------------------------------------------------------------------*/
/* Function Members */
/*---------------------------------------------------------------------------------*/

View File

@ -23,24 +23,27 @@ namespace SHADE
/*-----------------------------------------------------------------------------------*/
SHSceneNode::SHSceneNode(EntityID eid, SHSceneNode* parent) noexcept
: active { true }
, entityID { eid }
, parent { parent }
: active { true }
, isActiveInHierarchy { true }
, entityID { eid }
, parent { parent }
{}
SHSceneNode::SHSceneNode(const SHSceneNode& rhs) noexcept
: active { rhs.active }
, entityID { rhs.entityID }
, parent { rhs.parent }
: active { rhs.active }
, isActiveInHierarchy { rhs.isActiveInHierarchy }
, entityID { rhs.entityID }
, parent { rhs.parent }
{
std::ranges::copy(rhs.children.begin(), rhs.children.end(), std::back_inserter(children));
}
SHSceneNode::SHSceneNode(SHSceneNode&& rhs) noexcept
: active { rhs.active }
, entityID { rhs.entityID }
, parent { rhs.parent }
: active { rhs.active }
, isActiveInHierarchy { rhs.isActiveInHierarchy }
, entityID { rhs.entityID }
, parent { rhs.parent }
{
std::ranges::copy(rhs.children.begin(), rhs.children.end(), std::back_inserter(children));
}
@ -50,9 +53,10 @@ namespace SHADE
if (this == &rhs)
return *this;
active = rhs.active;
entityID = rhs.entityID;
parent = rhs.parent;
active = rhs.active;
isActiveInHierarchy = rhs.isActiveInHierarchy;
entityID = rhs.entityID;
parent = rhs.parent;
children.clear();
std::ranges::copy(rhs.children.begin(), rhs.children.end(), std::back_inserter(children));
@ -62,9 +66,10 @@ namespace SHADE
SHSceneNode& SHSceneNode::operator=(SHSceneNode&& rhs) noexcept
{
active = rhs.active;
entityID = rhs.entityID;
parent = rhs.parent;
active = rhs.active;
isActiveInHierarchy = rhs.isActiveInHierarchy;
entityID = rhs.entityID;
parent = rhs.parent;
children.clear();
std::ranges::copy(rhs.children.begin(), rhs.children.end(), std::back_inserter(children));
@ -81,6 +86,11 @@ namespace SHADE
return active;
}
bool SHSceneNode::IsActiveInHierarchy() const noexcept
{
return isActiveInHierarchy;
}
EntityID SHSceneNode::GetEntityID() const noexcept
{
return entityID;
@ -132,7 +142,31 @@ namespace SHADE
void SHSceneNode::SetActive(bool newActiveState) noexcept
{
active = newActiveState;
active = newActiveState;
isActiveInHierarchy = newActiveState;
// Set the entity's active state
// TODO(Daniel / Diren): Sync it based on active in hierarchy or active state.
SHEntityManager::GetEntityByID(entityID)->SetActive(active);
// Recurse down the children to set the active in hierarchy state
recursiveSetActiveInHierarchy(active, children);
}
/*-----------------------------------------------------------------------------------*/
/* Private Member Function Definitions */
/*-----------------------------------------------------------------------------------*/
void SHSceneNode::recursiveSetActiveInHierarchy(bool activeInHierarchy, const std::vector<SHSceneNode*>& childrenToSet) noexcept
{
if (childrenToSet.empty())
return;
for (auto* child : childrenToSet)
{
child->isActiveInHierarchy = activeInHierarchy;
recursiveSetActiveInHierarchy(activeInHierarchy, child->children);
}
}
} // namespace SHADE

View File

@ -43,7 +43,7 @@ namespace SHADE
/* Constructors & Destructor */
/*---------------------------------------------------------------------------------*/
~SHSceneNode () = default;
~SHSceneNode () noexcept = default;
SHSceneNode (EntityID eid, SHSceneNode* parent = nullptr) noexcept;
SHSceneNode (const SHSceneNode& rhs) noexcept;
@ -55,10 +55,11 @@ namespace SHADE
/* Getter Functions */
/*---------------------------------------------------------------------------------*/
[[nodiscard]] bool IsActive () const noexcept;
[[nodiscard]] EntityID GetEntityID () const noexcept;
[[nodiscard]] SHSceneNode* GetParent () const noexcept;
[[nodiscard]] const std::vector<SHSceneNode*>& GetChildren () const noexcept;
[[nodiscard]] bool IsActive () const noexcept;
[[nodiscard]] bool IsActiveInHierarchy () const noexcept;
[[nodiscard]] EntityID GetEntityID () const noexcept;
[[nodiscard]] SHSceneNode* GetParent () const noexcept;
[[nodiscard]] const std::vector<SHSceneNode*>& GetChildren () const noexcept;
[[nodiscard]] SHSceneNode* GetChild (EntityID childID) const noexcept;
@ -74,9 +75,16 @@ namespace SHADE
/*---------------------------------------------------------------------------------*/
bool active;
bool isActiveInHierarchy;
EntityID entityID;
SHSceneNode* parent;
std::vector<SHSceneNode*> children;
/*---------------------------------------------------------------------------------*/
/* Member Functions */
/*---------------------------------------------------------------------------------*/
static void recursiveSetActiveInHierarchy(bool activeInHierarchy, const std::vector<SHSceneNode*>& childrenToSet) noexcept;
};
} // namespace SHADE

View File

@ -15,6 +15,8 @@ of DigiPen Institute of Technology is prohibited.
#include "SHDebugDraw.h"
// Project Includes
#include "Math/Vector/SHVec4.h"
#include "Math/SHQuaternion.h"
#include "Math/SHQuaternion.h"
#include "Math/SHColour.h"
#include "Graphics/MiddleEnd/Interface/SHDebugDrawSystem.h"
#include "ECS_Base/Managers/SHSystemManager.h"
@ -41,69 +43,181 @@ namespace SHADE
/*-----------------------------------------------------------------------------------*/
/* Draw Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDraw::Line(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt)
void SHDebugDraw::Line(const SHVec3& startPt, const SHVec3& endPt, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawLine(color, startPt, endPt);
dbgDrawSys->DrawLine(startPt, endPt, color, depthTested);
}
void SHDebugDraw::Tri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3)
void SHDebugDraw::Tri(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawTri(color, pt1, pt2, pt3);
dbgDrawSys->DrawTri(pt1, pt2, pt3, color, depthTested);
}
void SHDebugDraw::Quad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4)
void SHDebugDraw::Quad(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawQuad(color, pt1, pt2, pt3, pt4);
dbgDrawSys->DrawQuad(pt1, pt2, pt3, pt4, color, depthTested);
}
void SHDebugDraw::Poly(const SHVec4& color, std::initializer_list<SHVec3> pointList)
void SHDebugDraw::Circle(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPoly(color, pointList);
dbgDrawSys->DrawCircle(mat, color, depthTested);
}
void SHDebugDraw::Cube(const SHVec4& color, const SHVec3& pos, const SHVec3& size)
void SHDebugDraw::LineLoop(std::initializer_list<SHVec3> pointList, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawCube(color, pos, size);
dbgDrawSys->DrawLineLoop(pointList, color, depthTested);
}
void SHDebugDraw::Sphere(const SHVec4& color, const SHVec3& pos, double radius)
void SHDebugDraw::Cube(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawSphere(color, pos, radius);
dbgDrawSys->DrawCube(mat, color, depthTested);
}
void SHDebugDraw::PersistentLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt)
void SHDebugDraw::Cube(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentLine(color, startPt, endPt);
dbgDrawSys->DrawCube(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::PersistentTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3)
void SHDebugDraw::Cube(const SHVec3& center, const SHQuaternion& orientation, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentTri(color, pt1, pt2, pt3);
dbgDrawSys->DrawCube(SHMatrix::Transform(center, orientation, scale), color, depthTested);
}
void SHDebugDraw::PersistentQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4)
void SHDebugDraw::Cube(const SHVec3& center, const SHVec3& eulerAngles, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentQuad(color, pt1, pt2, pt3, pt4);
dbgDrawSys->DrawCube(SHMatrix::Transform(center, eulerAngles, scale), color, depthTested);
}
void SHDebugDraw::PersistentPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList)
void SHDebugDraw::Sphere(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentPoly(color, pointList);
dbgDrawSys->DrawSphere(mat, color, depthTested);
}
void SHDebugDraw::PersistentCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size)
void SHDebugDraw::Sphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCube(color, pos, size);
dbgDrawSys->DrawSphere(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::PersistentSphere(const SHVec4& color, const SHVec3& pos, double radius)
void SHDebugDraw::Sphere(const SHVec3& center, const SHQuaternion& orientation, SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentSphere(color, pos, radius);
dbgDrawSys->DrawSphere(SHMatrix::Transform(center, orientation, scale), color, depthTested);
}
void SHDebugDraw::ClearPersistentDraws()
void SHDebugDraw::Sphere(const SHVec3& center, const SHVec3& eulerAngles, SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawSphere(SHMatrix::Transform(center, eulerAngles, scale), color, depthTested);
}
void SHDebugDraw::WireCube(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawWireCube(mat, color, depthTested);
}
void SHDebugDraw::WireCube(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawWireCube(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::WireSphere(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawWireSphere(mat, color, depthTested);
}
void SHDebugDraw::WireSphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawWireSphere(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
/*-----------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/*-----------------------------------------------------------------------------------*/
void SHDebugDraw::Persistent::Line(const SHVec3& startPt, const SHVec3& endPt, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentLine(startPt, endPt, color, depthTested);
}
void SHDebugDraw::Persistent::Tri(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentTri(pt1, pt2, pt3, color, depthTested);
}
void SHDebugDraw::Persistent::Quad(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentQuad(pt1, pt2, pt3, pt4, color, depthTested);
}
void SHDebugDraw::Persistent::Circle(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCircle(mat, color, depthTested);
}
void SHDebugDraw::Persistent::LineLoop(std::initializer_list<SHVec3> pointList, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentLineLoop(pointList, color, depthTested);
}
void SHDebugDraw::Persistent::Cube(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCube(mat, color, depthTested);
}
void SHDebugDraw::Persistent::Cube(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCube(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::Persistent::Cube(const SHVec3& center, const SHQuaternion& orientation, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCube(SHMatrix::Transform(center, orientation, scale), color, depthTested);
}
void SHDebugDraw::Persistent::Cube(const SHVec3& center, const SHVec3& eulerAngles, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentCube(SHMatrix::Transform(center, eulerAngles, scale), color, depthTested);
}
void SHDebugDraw::Persistent::Sphere(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentSphere(mat, color, depthTested);
}
void SHDebugDraw::Persistent::Sphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentSphere(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::Persistent::Sphere(const SHVec3& center, const SHQuaternion& orientation, SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentSphere(SHMatrix::Transform(center, orientation, scale), color, depthTested);
}
void SHDebugDraw::Persistent::Sphere(const SHVec3& center, const SHVec3& eulerAngles, SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentSphere(SHMatrix::Transform(center, eulerAngles, scale), color, depthTested);
}
void SHDebugDraw::Persistent::WireCube(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentWireCube(mat, color, depthTested);
}
void SHDebugDraw::Persistent::WireCube(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentWireCube(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::Persistent::WireSphere(const SHMatrix& mat, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentWireSphere(mat, color, depthTested);
}
void SHDebugDraw::Persistent::WireSphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color, bool depthTested)
{
dbgDrawSys->DrawPersistentWireSphere(SHMatrix::Transform(center, SHQuaternion(), scale), color, depthTested);
}
void SHDebugDraw::Persistent::ClearDraws()
{
dbgDrawSys->ClearPersistentDraws();
}
}
}

View File

@ -13,6 +13,7 @@ of DigiPen Institute of Technology is prohibited.
// Project Includes
#include "SH_API.h"
#include "Math/SHColour.h"
namespace SHADE
{
@ -22,7 +23,8 @@ namespace SHADE
class SHDebugDrawSystem;
class SHVec4;
class SHVec3;
class SHColour;
class SHQuaternion;
class SHMatrix;
/*-----------------------------------------------------------------------------------*/
/* Type Definitions */
@ -50,105 +52,324 @@ namespace SHADE
/// <summary>
/// Renders a line between two points in world space.
/// </summary>
/// <param name="color">Colour of the line.</param>
/// <param name="startPt">First point of the line.</param>
/// <param name="endPt">Second point of the line.</param>
static void Line(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt);
/// <param name="color">Colour of the line.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Line(const SHVec3& startPt, const SHVec3& endPt, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a triangle indicated by three points in world space.
/// </summary>
/// <param name="color">Colour of the triangle.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the triangle.</param>
/// <param name="pt3">Third point of the triangle.</param>
static void Tri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3);
/// <param name="color">Colour of the triangle.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Tri(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a quadrilateral indicated by four points in world space.
/// </summary>
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the quadrilateral.</param>
/// <param name="pt3">Third point of the quadrilateral.</param>
/// <param name="pt4">Third point of the quadrilateral.</param>
static void Quad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4);
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Quad(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a 2-dimensional circle in world space.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the circle should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Circle(const SHMatrix& mat,const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space.
/// </summary>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointList">List of points for the polygon.</param>
static void Poly(const SHVec4& color, std::initializer_list<SHVec3> pointList);
/// <param name="color">Colour of the polygon.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void LineLoop(std::initializer_list<SHVec3> pointList, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe cube centered around the position specified in world space.
/// Draws a filled cube in world space.
/// </summary>
/// <param name="color">Colour of the cube.</param>
/// <param name="pos">Position where the cube wil be centered at.</param>
/// <param name="size">Size of the rendered cube.</param>
static void Cube(const SHVec4& color, const SHVec3& pos, const SHVec3& size);
/// <param name="matrix">
/// Matrix transformation that defines how the cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a wireframe sphere centered around the position specified in world space.
/// Draws a filled cube in world space.
/// </summary>
/// <param name="color">Colour of the sphere.</param>
/// <param name="pos">Position where the sphere wil be centered at.</param>
/// <param name="size">Size of the rendered sphere.</param>
static void Sphere(const SHVec4& color, const SHVec3& pos, double radius);
/// <param name="center">Center of the Cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="orientation">Orientation of the cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHQuaternion& orientation, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="eulerAngles">Euler angle rotation of the cube in radians.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHVec3& eulerAngles, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="scale">Size of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="orientation">Orientation of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHQuaternion& orientation, SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="eulerAngles">Euler angle rotation of the sphere in radians.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHVec3& eulerAngles, SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a cube in world space.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the wire cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireCube(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a cube in world space.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireCube(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a sphere in world space.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireSphere(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a sphere in world space.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="scale">Size of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireSphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/*---------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/* Persistent Draw Function Class "Folder" */
/*---------------------------------------------------------------------------------*/
/// <summary>
/// Renders a line between two points in world space that will persist until
/// ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the line.</param>
/// <param name="startPt">First point of the line.</param>
/// <param name="endPt">Second point of the line.</param>
static void PersistentLine(const SHVec4& color, const SHVec3& startPt, const SHVec3& endPt);
/// <summary>
/// Renders a triangle indicated by three points in world space that will persist
/// until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the triangle.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the triangle.</param>
/// <param name="pt3">Third point of the triangle.</param>
static void PersistentTri(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3);
/// <summary>
/// Renders a quadrilateral indicated by four points in world space that will persist
/// until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the quadrilateral.</param>
/// <param name="pt3">Third point of the quadrilateral.</param>
/// <param name="pt4">Third point of the quadrilateral.</param>
static void PersistentQuad(const SHVec4& color, const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space that
/// will persist until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the polygon.</param>
/// <param name="pointList">List of points for the polygon.</param>
static void PersistentPoly(const SHVec4& color, std::initializer_list<SHVec3> pointList);
/// <summary>
/// Renders a wireframe cube centered around the position specified in world space
/// that will persist until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the cube.</param>
/// <param name="pos">Position where the cube wil be centered at.</param>
/// <param name="size">Size of the rendered cube.</param>
static void PersistentCube(const SHVec4& color, const SHVec3& pos, const SHVec3& size);
/// <summary>
/// Renders a wireframe sphere centered around the position specified in world space
/// that will persist until ClearPersistentDraws() is called.
/// </summary>
/// <param name="color">Colour of the sphere.</param>
/// <param name="pos">Position where the sphere wil be centered at.</param>
/// <param name="size">Size of the rendered sphere.</param>
static void PersistentSphere(const SHVec4& color, const SHVec3& pos, double radius);
/// <summary>
/// Clears any persistent drawn debug primitives.
/// </summary>
static void ClearPersistentDraws();
struct SH_API Persistent
{
/*-------------------------------------------------------------------------------*/
/* Persistent Draw Functions */
/*-------------------------------------------------------------------------------*/
/// <summary>
/// Renders a line between two points in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="startPt">First point of the line.</param>
/// <param name="endPt">Second point of the line.</param>
/// <param name="color">Colour of the line.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Line(const SHVec3& startPt, const SHVec3& endPt, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a triangle indicated by three points in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the triangle.</param>
/// <param name="pt3">Third point of the triangle.</param>
/// <param name="color">Colour of the triangle.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Tri(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a quadrilateral indicated by four points in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="pt1">First point of the triangle.</param>
/// <param name="pt2">Second point of the quadrilateral.</param>
/// <param name="pt3">Third point of the quadrilateral.</param>
/// <param name="pt4">Third point of the quadrilateral.</param>
/// <param name="color">Colour of the quadrilateral.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Quad(const SHVec3& pt1, const SHVec3& pt2, const SHVec3& pt3, const SHVec3& pt4, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a 2-dimensional circle in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the circle should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Circle(const SHMatrix& mat,const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Renders a polygon indicated by the specified set of points in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="pointList">List of points for the polygon.</param>
/// <param name="color">Colour of the polygon.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void LineLoop(std::initializer_list<SHVec3> pointList, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="orientation">Orientation of the cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHQuaternion& orientation, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="eulerAngles">Euler angle rotation of the cube in radians.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Cube(const SHVec3& center, const SHVec3& eulerAngles, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="scale">Size of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="orientation">Orientation of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHQuaternion& orientation, SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws a filled sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="eulerAngles">Euler angle rotation of the sphere in radians.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void Sphere(const SHVec3& center, const SHVec3& eulerAngles, SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the wire cube should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireCube(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the outline of a cube in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center of the Cube.</param>
/// <param name="scale">Size of the Cube.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireCube(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="matrix">
/// Matrix transformation that defines how the sphere should be drawn.
/// </param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireSphere(const SHMatrix& mat, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Draws the wireframe of a sphere in world space.
/// This will remain drawn until ClearDraws() is called.
/// </summary>
/// <param name="center">Center point of the sphere.</param>
/// <param name="scale">Size of the sphere.</param>
/// <param name="color">Colour to draw with.</param>
/// <param name="depthTested">Whether or not drawn object will be occluded.</param>
static void WireSphere(const SHVec3& center, const SHVec3& scale, const SHVec4& color = SHColour::WHITE, bool depthTested = false);
/// <summary>
/// Clears any persistent drawn debug primitives.
/// </summary>
static void ClearDraws();
};
private:
/*---------------------------------------------------------------------------------*/

View File

@ -76,7 +76,13 @@ namespace SHADE
{
if (!valid)
throw gcnew System::NullReferenceException();
return GetNativeEntity().GetActive();
auto node = SHSceneManager::GetCurrentSceneGraph().GetNode(GetEntity());
if (!node)
{
Debug::LogWarning("Attempting to access a GameObject's Active state which does not exist. Assuming inactive.");
return false;
}
return node->IsActive();
}
bool GameObject::IsActiveInHierarchy::get()
{
@ -88,7 +94,7 @@ namespace SHADE
Debug::LogWarning("Attempting to access a GameObject's ActiveInHierarchy state which does not exist. Assuming inactive.");
return false;
}
return node->IsActive();
return node->IsActiveInHierarchy();
}
Entity GameObject::EntityId::get()
{
@ -148,7 +154,8 @@ namespace SHADE
{
if (!valid)
throw gcnew System::NullReferenceException();
GetNativeEntity().SetActive(active);
SHSceneManager::GetCurrentSceneGraph().SetActive(GetEntity(), active);
}
/*---------------------------------------------------------------------------------*/

View File

@ -44,7 +44,27 @@ namespace SHADE
void Gizmos::DrawLine(Vector3 from, Vector3 to, SHADE::Color color)
{
SHDebugDraw::Line(Convert::ToNative(color), Convert::ToNative(from), Convert::ToNative(to));
SHDebugDraw::Line(Convert::ToNative(from), Convert::ToNative(to), Convert::ToNative(color));
}
void Gizmos::DrawCube(Vector3 center, Vector3 extents)
{
DrawCube(center, extents, defaultColor);
}
void Gizmos::DrawCube(Vector3 center, Vector3 extents, SHADE::Color color)
{
SHDebugDraw::Cube(Convert::ToNative(center), Convert::ToNative(extents), Convert::ToNative(color));
}
void Gizmos::DrawSphere(Vector3 center, float radius)
{
DrawSphere(center, radius, defaultColor);
}
void Gizmos::DrawSphere(Vector3 center, float radius, SHADE::Color color)
{
SHDebugDraw::Sphere(Convert::ToNative(center), SHVec3(radius, radius, radius), Convert::ToNative(color));
}
void Gizmos::DrawWireCube(Vector3 center, Vector3 extents)
@ -54,7 +74,7 @@ namespace SHADE
void Gizmos::DrawWireCube(Vector3 center, Vector3 extents, SHADE::Color color)
{
SHDebugDraw::Cube(Convert::ToNative(color), Convert::ToNative(center), Convert::ToNative(extents));
SHDebugDraw::WireCube(Convert::ToNative(center), Convert::ToNative(extents), Convert::ToNative(color));
}
void Gizmos::DrawWireSphere(Vector3 center, float radius)
@ -64,6 +84,6 @@ namespace SHADE
void Gizmos::DrawWireSphere(Vector3 center, float radius, SHADE::Color color)
{
SHDebugDraw::Sphere(Convert::ToNative(color), Convert::ToNative(center), radius);
SHDebugDraw::WireSphere(Convert::ToNative(center), SHVec3(radius, radius, radius), Convert::ToNative(color));
}
}

View File

@ -56,6 +56,38 @@ namespace SHADE
/// <param name="color">Colour of the line.</param>
static void DrawLine(Vector3 from, Vector3 to, SHADE::Color color);
/// <summary>
/// Renders a cube centered around the position specified in world
/// space.
/// Uses <see cref="Gizmos.Color">Color</see> to render.
/// </summary>
/// <param name="center">Position where the cube wil be centered at.</param>
/// <param name="extents">Size of the rendered cube.</param>
static void DrawCube(Vector3 center, Vector3 extents);
/// <summary>
/// Renders a cube centered around the position specified in world
/// space.
/// </summary>
/// <param name="center">Position where the cube wil be centered at.</param>
/// <param name="extents">Size of the rendered cube.</param>
/// <param name="color">Colour of the cube.</param>
static void DrawCube(Vector3 center, Vector3 extents, SHADE::Color color);
/// <summary>
/// Renders a sphere centered around the position specified in world
/// space.
/// Uses <see cref="Gizmos.Color">Color</see> to render.
/// </summary>
/// <param name="center">Position where the sphere wil be centered at.</param>
/// <param name="radius">Radius of the rendered sphere.</param>
static void DrawSphere(Vector3 center, float radius);
/// <summary>
/// Renders a sphere centered around the position specified in world
/// space.
/// </summary>
/// <param name="center">Position where the sphere wil be centered at.</param>
/// <param name="radius">Radius of the rendered sphere.</param>
/// <param name="color">Colour of the sphere.</param>
static void DrawSphere(Vector3 center, float radius, SHADE::Color color);
/// <summary>
/// Renders a wireframe cube centered around the position specified in world
/// space.
/// Uses <see cref="Gizmos.Color">Color</see> to render.