metaforce/Runtime/Graphics/CCubeRenderer.cpp

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#include "Runtime/Graphics/CCubeRenderer.hpp"
#include "Runtime/GameGlobalObjects.hpp"
#include "Runtime/Graphics/CCubeMaterial.hpp"
#include "Runtime/Graphics/CCubeModel.hpp"
#include "Runtime/Graphics/CCubeSurface.hpp"
#include "Runtime/Graphics/CDrawable.hpp"
#include "Runtime/Graphics/CDrawablePlaneObject.hpp"
#include "Runtime/Graphics/CGX.hpp"
#include "Runtime/Graphics/CLight.hpp"
#include "Runtime/Graphics/CMetroidModelInstance.hpp"
#include "Runtime/Graphics/CModel.hpp"
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#include "Runtime/World/CGameArea.hpp"
#include "Runtime/Particle/CParticleGen.hpp"
#include "Runtime/Particle/CDecal.hpp"
#include "Runtime/Particle/CElementGen.hpp"
#include "Runtime/CDvdFile.hpp"
namespace metaforce {
static logvisor::Module Log("CCubeRenderer");
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/* TODO: This is to fix some areas exceeding the max drawable count, the proper number is 128 drawables per bucket */
// using BucketHolderType = rstl::reserved_vector<CDrawable*, 128>;
using BucketHolderType = rstl::reserved_vector<CDrawable*, 132>;
static rstl::reserved_vector<CDrawable, 512> sDataHolder;
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static rstl::reserved_vector<BucketHolderType, 50> sBucketsHolder;
static rstl::reserved_vector<CDrawablePlaneObject, 8> sPlaneObjectDataHolder;
static rstl::reserved_vector<u16, 8> sPlaneObjectBucketHolder;
class Buckets {
friend class CCubeRenderer;
static inline rstl::reserved_vector<u16, 50> sBucketIndex;
static inline rstl::reserved_vector<CDrawable, 512>* sData = nullptr;
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static inline rstl::reserved_vector<BucketHolderType, 50>* sBuckets = nullptr;
static inline rstl::reserved_vector<CDrawablePlaneObject, 8>* sPlaneObjectData = nullptr;
static inline rstl::reserved_vector<u16, 8>* sPlaneObjectBucket = nullptr;
static constexpr std::array skWorstMinMaxDistance{99999.0f, -99999.0f};
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static inline std::array sMinMaxDistance{99999.0f, -99999.0f};
public:
static void Clear();
static void Sort();
static void InsertPlaneObject(float closeDist, float farDist, const zeus::CAABox& aabb, bool invertTest,
const zeus::CPlane& plane, bool zOnly, EDrawableType dtype, void* data);
static void Insert(const zeus::CVector3f& pos, const zeus::CAABox& aabb, EDrawableType dtype, void* data,
const zeus::CPlane& plane, u16 extraSort);
static void Shutdown();
static void Init();
};
void Buckets::Clear() {
sData->clear();
sBucketIndex.clear();
sPlaneObjectData->clear();
sPlaneObjectBucket->clear();
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for (BucketHolderType& bucket : *sBuckets) {
bucket.clear();
}
sMinMaxDistance = skWorstMinMaxDistance;
}
void Buckets::Sort() {
float delta = std::max(1.f, sMinMaxDistance[1] - sMinMaxDistance[0]);
float pitch = 49.f / delta;
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for (auto it = sPlaneObjectData->begin(); it != sPlaneObjectData->end(); ++it) {
if (sPlaneObjectBucket->size() != sPlaneObjectBucket->capacity()) {
sPlaneObjectBucket->push_back(s16(it - sPlaneObjectData->begin()));
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}
}
u32 precision = 50;
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if (!sPlaneObjectBucket->empty()) {
std::sort(sPlaneObjectBucket->begin(), sPlaneObjectBucket->end(),
[](u16 a, u16 b) { return (*sPlaneObjectData)[a].GetDistance() < (*sPlaneObjectData)[b].GetDistance(); });
precision = 50 / u32(sPlaneObjectBucket->size() + 1);
pitch = 1.f / (delta / float(precision - 2));
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s32 accum = 0;
for (u16 idx : *sPlaneObjectBucket) {
++accum;
CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[idx];
planeObj.x24_targetBucket = u16(precision * accum);
}
}
for (CDrawable& drawable : *sData) {
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s32 slot = -1;
float relDist = drawable.GetDistance() - sMinMaxDistance[0];
if (sPlaneObjectBucket->empty()) {
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slot = zeus::clamp(1, s32(relDist * pitch), 49);
} else {
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slot = zeus::clamp(0, s32(relDist * pitch), s32(precision) - 2);
for (u16 idx : *sPlaneObjectBucket) {
CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[idx];
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bool partial = false;
bool full = false;
if (planeObj.x3c_25_zOnly) {
partial = drawable.GetBounds().max.z() > planeObj.GetPlane().d();
full = drawable.GetBounds().min.z() > planeObj.GetPlane().d();
} else {
partial = planeObj.GetPlane().pointToPlaneDist(
drawable.GetBounds().closestPointAlongVector(planeObj.GetPlane().normal())) > 0.f;
full = planeObj.GetPlane().pointToPlaneDist(
drawable.GetBounds().furthestPointAlongVector(planeObj.GetPlane().normal())) > 0.f;
}
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bool cont = false;
if (drawable.GetType() == EDrawableType::Particle) {
cont = planeObj.x3c_24_invertTest ? !partial : full;
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} else {
cont = planeObj.x3c_24_invertTest ? (!partial || !full) : (partial || full);
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}
if (!cont) {
break;
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}
slot += s32(precision);
}
}
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if (slot == -1) {
slot = 49;
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}
BucketHolderType& bucket = (*sBuckets)[slot];
if (bucket.size() < bucket.capacity()) {
bucket.push_back(&drawable);
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}
// else
// Log.report(logvisor::Fatal, FMT_STRING("Full bucket!!!"));
}
u16 bucketIdx = u16(sBuckets->size());
for (auto it = sBuckets->rbegin(); it != sBuckets->rend(); ++it) {
--bucketIdx;
sBucketIndex.push_back(bucketIdx);
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BucketHolderType& bucket = *it;
if (bucket.size()) {
std::sort(bucket.begin(), bucket.end(), [](CDrawable* a, CDrawable* b) {
if (a->GetDistance() == b->GetDistance())
return a->GetExtraSort() > b->GetExtraSort();
return a->GetDistance() > b->GetDistance();
});
}
}
for (auto it = sPlaneObjectBucket->rbegin(); it != sPlaneObjectBucket->rend(); ++it) {
CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[*it];
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BucketHolderType& bucket = (*sBuckets)[planeObj.x24_targetBucket];
bucket.push_back(&planeObj);
}
}
void Buckets::InsertPlaneObject(float closeDist, float farDist, const zeus::CAABox& aabb, bool invertTest,
const zeus::CPlane& plane, bool zOnly, EDrawableType dtype, void* data) {
if (sPlaneObjectData->size() == sPlaneObjectData->capacity()) {
return;
}
sPlaneObjectData->emplace_back(dtype, closeDist, farDist, aabb, invertTest, plane, zOnly, data);
}
void Buckets::Insert(const zeus::CVector3f& pos, const zeus::CAABox& aabb, EDrawableType dtype, void* data,
const zeus::CPlane& plane, u16 extraSort) {
if (sData->size() == sData->capacity()) {
Log.report(logvisor::Fatal, FMT_STRING("Rendering buckets filled to capacity"));
return;
}
const float dist = plane.pointToPlaneDist(pos);
sData->emplace_back(dtype, extraSort, dist, aabb, data);
sMinMaxDistance[0] = std::min(sMinMaxDistance[0], dist);
sMinMaxDistance[1] = std::max(sMinMaxDistance[1], dist);
}
void Buckets::Shutdown() {
sData = nullptr;
sBuckets = nullptr;
sPlaneObjectData = nullptr;
sPlaneObjectBucket = nullptr;
}
void Buckets::Init() {
sData = &sDataHolder;
sBuckets = &sBucketsHolder;
sBuckets->resize(50);
sPlaneObjectData = &sPlaneObjectDataHolder;
sPlaneObjectBucket = &sPlaneObjectBucketHolder;
sMinMaxDistance = skWorstMinMaxDistance;
}
CCubeRenderer::CAreaListItem::CAreaListItem(const std::vector<CMetroidModelInstance>* geom,
const CAreaRenderOctTree* octTree,
std::unique_ptr<std::vector<TCachedToken<CTexture>>>&& textures,
std::unique_ptr<std::vector<std::unique_ptr<CCubeModel>>>&& models,
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s32 areaIdx)
: x0_geometry(geom)
, x4_octTree(octTree)
, x8_textures(std::move(textures))
, x10_models(std::move(models))
, x18_areaIdx(areaIdx) {}
CCubeRenderer::CCubeRenderer(IObjectStore& store, IFactory& resFac) : x8_factory(resFac), xc_store(store) {
void* data = xe4_blackTex.Lock();
memset(data, 0, 32);
xe4_blackTex.UnLock();
GenerateReflectionTex();
GenerateFogVolumeRampTex();
GenerateSphereRampTex();
LoadThermoPalette();
g_Renderer = this;
Buckets::Init();
// GX draw sync
}
CCubeRenderer::~CCubeRenderer() { g_Renderer = nullptr; }
void CCubeRenderer::GenerateReflectionTex() {
// TODO
}
void CCubeRenderer::GenerateFogVolumeRampTex() {
constexpr double fogVolFar = 750.0;
constexpr double fogVolNear = 0.2;
u8* data = x1b8_fogVolumeRamp.Lock();
u16 height = x1b8_fogVolumeRamp.GetHeight();
u16 width = x1b8_fogVolumeRamp.GetWidth();
for (size_t y = 0; y < height; ++y) {
for (size_t x = 0; x < width; ++x) {
const int tmp = int(y << 16 | x << 8 | 0x7f);
const double a =
zeus::clamp(0.0,
(-150.0 / (tmp / double(0xffffff) * (fogVolFar - fogVolNear) - fogVolFar) - fogVolNear) * 3.0 /
(fogVolFar - fogVolNear),
1.0);
data[y * width + x] = (a * a + a) / 2.0;
}
}
x1b8_fogVolumeRamp.UnLock();
}
void CCubeRenderer::GenerateSphereRampTex() {
u8* data = x220_sphereRamp.Lock();
const size_t height = x220_sphereRamp.GetHeight();
const size_t width = x220_sphereRamp.GetWidth();
const float halfRes = height / 2.f;
for (size_t y = 0; y < height; ++y) {
for (size_t x = 0; x < width; ++x) {
const zeus::CVector2f vec{
(static_cast<float>(x) - halfRes) / halfRes,
(static_cast<float>(y) - halfRes) / halfRes,
};
data[y * width + x] = 255 - zeus::clamp(0.f, vec.canBeNormalized() ? vec.magnitude() : 0.f, 1.f) * 255;
}
}
x220_sphereRamp.UnLock();
}
void CCubeRenderer::LoadThermoPalette() {
auto* out = x288_thermoPalette.Lock();
TToken<CTexture> token = xc_store.GetObj("TXTR_ThermoPalette");
const auto* data = token.GetObj()->GetPalette()->GetPaletteData();
memcpy(out, data, 32);
x288_thermoPalette.UnLock();
}
void CCubeRenderer::ReallyDrawPhazonSuitIndirectEffect(const zeus::CColor& vertColor, CTexture& maskTex,
CTexture& indTex, const zeus::CColor& modColor, float scale,
float offX, float offY) {
// TODO
}
void CCubeRenderer::ReallyDrawPhazonSuitEffect(const zeus::CColor& modColor, CTexture& maskTex) {
// TODO
}
void CCubeRenderer::DoPhazonSuitIndirectAlphaBlur(float blurRadius, float f2) {
// TODO
}
void CCubeRenderer::AddWorldSurfaces(CCubeModel& model) {
for (auto* it = model.GetFirstSortedSurface(); it != nullptr; it = it->GetNextSurface()) {
auto mat = model.GetMaterialByIndex(it->GetMaterialIndex());
auto blend = mat.GetCompressedBlend();
auto bounds = it->GetBounds();
auto pos = bounds.closestPointAlongVector(xb0_viewPlane.normal());
Buckets::Insert(pos, bounds, EDrawableType::WorldSurface, it, xb0_viewPlane, static_cast<u16>(blend == 0x50004));
}
}
void CCubeRenderer::AddStaticGeometry(const std::vector<CMetroidModelInstance>* geometry,
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const CAreaRenderOctTree* octTree, s32 areaIdx) {
auto search = FindStaticGeometry(geometry);
if (search == x1c_areaListItems.end()) {
auto textures = std::make_unique<std::vector<TCachedToken<CTexture>>>();
auto models = std::make_unique<std::vector<std::unique_ptr<CCubeModel>>>();
if (!geometry->empty()) {
CCubeModel::MakeTexturesFromMats((*geometry)[0].GetMaterialPointer(), *textures.get(), &xc_store, false);
models->reserve(geometry->size());
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s32 instIdx = 0;
for (const CMetroidModelInstance& inst : *geometry) {
models->emplace_back(
std::make_unique<CCubeModel>(const_cast<std::vector<CCubeSurface>*>(inst.GetSurfaces()), textures.get(),
const_cast<u8*>(inst.GetMaterialPointer()),
const_cast<std::vector<zeus::CVector3f>*>(inst.GetVertexPointer()),
const_cast<std::vector<zeus::CColor>*>(inst.GetColorPointer()),
const_cast<std::vector<zeus::CVector3f>*>(inst.GetNormalPointer()),
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const_cast<std::vector<aurora::Vec2<float>>*>(inst.GetTCPointer()),
const_cast<std::vector<aurora::Vec2<float>>*>(inst.GetPackedTCPointer()),
inst.GetBoundingBox(), inst.GetFlags(), false, instIdx));
++instIdx;
}
}
x1c_areaListItems.emplace_back(geometry, octTree, std::move(textures), std::move(models), areaIdx);
}
}
void CCubeRenderer::EnablePVS(const CPVSVisSet& set, u32 areaIdx) {
if (!xdc_) {
xc8_pvs.emplace(set);
xdc_ = true;
} else {
xc8_pvs.emplace(set);
}
xe0_pvsAreaIdx = areaIdx;
}
void CCubeRenderer::DisablePVS() { xc8_pvs.reset(); }
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void CCubeRenderer::RemoveStaticGeometry(const std::vector<CMetroidModelInstance>* geometry) {
auto search = FindStaticGeometry(geometry);
if (search != x1c_areaListItems.end()) {
x1c_areaListItems.erase(search);
}
}
void CCubeRenderer::DrawUnsortedGeometry(s32 areaIdx, s32 mask, s32 targetMask) {
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SCOPED_GRAPHICS_DEBUG_GROUP(
fmt::format(FMT_STRING("CCubeRenderer::DrawUnsortedGeometry areaIdx={} mask={} targetMask={}"), areaIdx, mask,
targetMask)
.c_str(),
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zeus::skBlue);
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SetupRendererStates(true);
CModelFlags flags;
CAreaListItem* lastOctreeItem = nullptr;
for (CAreaListItem& item : x1c_areaListItems) {
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if (areaIdx != -1 && item.x18_areaIdx != areaIdx) {
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continue;
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}
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if (item.x4_octTree != nullptr) {
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lastOctreeItem = &item;
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}
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CPVSVisSet* pvs = nullptr;
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if (xc8_pvs) {
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pvs = &*xc8_pvs;
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}
if (xe0_pvsAreaIdx != item.x18_areaIdx) {
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pvs = nullptr;
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}
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u32 idx = 0;
for (auto it = item.x10_models->begin(); it != item.x10_models->end(); ++it, ++idx) {
const auto& model = *it;
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if (pvs != nullptr) {
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bool vis = pvs->GetVisible(idx) != EPVSVisSetState::EndOfTree;
switch (xc0_pvsMode) {
case EPVSMode::PVS: {
if (!vis) {
model->SetVisible(false);
continue;
}
break;
}
case EPVSMode::PVSAndMask: {
if (!vis && (model->GetFlags() & mask) != targetMask) {
model->SetVisible(false);
continue;
}
break;
}
default:
break;
}
}
if ((model->GetFlags() & mask) != targetMask) {
model->SetVisible(false);
continue;
}
if (!x44_frustumPlanes.aabbFrustumTest(model->GetBounds())) {
model->SetVisible(false);
continue;
}
if (x318_25_drawWireframe) {
model->SetVisible(false);
HandleUnsortedModelWireframe(lastOctreeItem, *model);
continue;
}
model->SetVisible(true);
HandleUnsortedModel(lastOctreeItem, *model, flags);
}
}
SetupCGraphicsState();
}
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void CCubeRenderer::DrawSortedGeometry(s32 areaIdx, s32 mask, s32 targetMask) {
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SCOPED_GRAPHICS_DEBUG_GROUP(
fmt::format(FMT_STRING("CCubeRenderer::DrawSortedGeometry areaIdx={} mask={} targetMask={}"), areaIdx, mask,
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targetMask)
.c_str(),
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zeus::skBlue);
SetupRendererStates(true);
const CAreaListItem* item = nullptr;
for (const auto& areaListItem : x1c_areaListItems) {
if (areaIdx == -1 || areaIdx == areaListItem.x18_areaIdx) {
if (areaListItem.x4_octTree != nullptr) {
item = &areaListItem;
}
for (const auto& model : *areaListItem.x10_models) {
if (model->IsVisible()) {
AddWorldSurfaces(*model);
}
}
}
}
Buckets::Sort();
RenderBucketItems(item);
SetupCGraphicsState();
DrawRenderBucketsDebug();
Buckets::Clear();
}
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void CCubeRenderer::DrawStaticGeometry(s32 areaIdx, s32 mask, s32 targetMask) {
DrawUnsortedGeometry(areaIdx, mask, targetMask);
DrawSortedGeometry(areaIdx, mask, targetMask);
}
void CCubeRenderer::DrawAreaGeometry(s32 areaIdx, s32 mask, s32 targetMask) {
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SCOPED_GRAPHICS_DEBUG_GROUP(
fmt::format(FMT_STRING("CCubeRenderer::DrawAreaGeometry areaIdx={} mask={} targetMask={}"), areaIdx, mask,
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targetMask)
.c_str(),
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zeus::skBlue);
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x318_30_inAreaDraw = true;
SetupRendererStates(true);
constexpr CModelFlags flags{0, 0, 3, zeus::skWhite};
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for (CAreaListItem& item : x1c_areaListItems) {
if (areaIdx == -1 || item.x18_areaIdx == areaIdx) {
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CPVSVisSet* pvs = xc8_pvs ? &*xc8_pvs : nullptr;
if (xe0_pvsAreaIdx != item.x18_areaIdx) {
pvs = nullptr;
}
s32 modelIdx = 0;
for (auto it = item.x10_models->begin(); it != item.x10_models->end(); ++it, ++modelIdx) {
const auto& model = *it;
if (pvs != nullptr) {
bool visible = pvs->GetVisible(modelIdx) != EPVSVisSetState::EndOfTree;
if ((xc0_pvsMode == EPVSMode::PVS && !visible) || (xc0_pvsMode == EPVSMode::PVSAndMask && visible)) {
continue;
}
}
if ((model->GetFlags() & mask) != targetMask) {
continue;
}
if (!x44_frustumPlanes.aabbFrustumTest(model->GetBounds())) {
continue;
}
model->SetArraysCurrent();
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for (const auto* surf = model->GetFirstUnsortedSurface(); surf != nullptr; surf = surf->GetNextSurface()) {
model->DrawSurface(*surf, flags);
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}
for (const auto* surf = model->GetFirstSortedSurface(); surf != nullptr; surf = surf->GetNextSurface()) {
model->DrawSurface(*surf, flags);
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}
}
}
}
SetupCGraphicsState();
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x318_30_inAreaDraw = false;
}
void CCubeRenderer::RenderBucketItems(const CAreaListItem* item) {
SCOPED_GRAPHICS_DEBUG_GROUP(
fmt::format(FMT_STRING("CCubeRenderer::RenderBucketItems areaIdx={}"), item->x18_areaIdx).c_str(), zeus::skBlue);
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CCubeModel* lastModel = nullptr;
EDrawableType lastDrawableType = EDrawableType::Invalid;
for (u16 idx : Buckets::sBucketIndex) {
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BucketHolderType& bucket = (*Buckets::sBuckets)[idx];
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for (CDrawable* drawable : bucket) {
EDrawableType type = drawable->GetType();
switch (type) {
case EDrawableType::Particle: {
if (lastDrawableType != EDrawableType::Particle) {
SetupCGraphicsState();
}
static_cast<CParticleGen*>(drawable->GetData())->Render();
break;
}
case EDrawableType::WorldSurface: {
if (lastDrawableType != EDrawableType::WorldSurface) {
SetupRendererStates(false);
lastModel = nullptr;
}
auto* surface = static_cast<CCubeSurface*>(drawable->GetData());
auto* model = surface->GetParent();
if (model != lastModel) {
model->SetArraysCurrent();
ActivateLightsForModel(item, *model);
}
model->DrawSurface(*surface, CModelFlags(0, 0, 1, zeus::skWhite));
break;
}
default: {
if (type != lastDrawableType) {
CCubeMaterial::EnsureTevsDirect();
}
if (xa8_drawableCallback != nullptr) {
xa8_drawableCallback(drawable->GetData(), xac_drawableCallbackUserData, s32(drawable->GetType()) - 2);
}
break;
}
}
lastDrawableType = type;
}
}
}
void CCubeRenderer::PostRenderFogs() {
for (const auto& warp : x2c4_spaceWarps) {
ReallyDrawSpaceWarp(warp.first, warp.second);
}
x2c4_spaceWarps.clear();
x2ac_fogVolumes.sort([](const CFogVolumeListItem& a, const CFogVolumeListItem& b) {
zeus::CAABox aabbA = a.x34_aabb.getTransformedAABox(a.x0_transform);
bool insideA =
aabbA.pointInside(zeus::CVector3f(CGraphics::g_ViewPoint.x(), CGraphics::g_ViewPoint.y(), aabbA.min.z()));
zeus::CAABox aabbB = b.x34_aabb.getTransformedAABox(b.x0_transform);
bool insideB =
aabbB.pointInside(zeus::CVector3f(CGraphics::g_ViewPoint.x(), CGraphics::g_ViewPoint.y(), aabbB.min.z()));
if (insideA != insideB) {
return insideA;
}
float dotA = aabbA.furthestPointAlongVector(CGraphics::g_ViewMatrix.basis[1]).dot(CGraphics::g_ViewMatrix.basis[1]);
float dotB = aabbB.furthestPointAlongVector(CGraphics::g_ViewMatrix.basis[1]).dot(CGraphics::g_ViewMatrix.basis[1]);
return dotA < dotB;
});
for (const CFogVolumeListItem& fog : x2ac_fogVolumes) {
CGraphics::SetModelMatrix(fog.x0_transform);
ReallyRenderFogVolume(fog.x30_color, fog.x34_aabb, fog.x4c_model.GetObj(), fog.x5c_skinnedModel);
}
x2ac_fogVolumes.clear();
}
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void CCubeRenderer::SetModelMatrix(const zeus::CTransform& xf) { CGraphics::SetModelMatrix(xf); }
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void CCubeRenderer::HandleUnsortedModel(CAreaListItem* areaItem, CCubeModel& model, const CModelFlags& flags) {
if (model.GetFirstUnsortedSurface() == nullptr) {
return;
}
model.SetArraysCurrent();
ActivateLightsForModel(areaItem, model);
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for (auto* it = model.GetFirstUnsortedSurface(); it != nullptr; it = it->GetNextSurface()) {
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model.DrawSurface(*it, CModelFlags(0, 0, 3, zeus::skWhite));
}
}
void CCubeRenderer::HandleUnsortedModelWireframe(CAreaListItem* areaItem, CCubeModel& model) {
model.SetArraysCurrent();
ActivateLightsForModel(areaItem, model);
for (auto* it = model.GetFirstUnsortedSurface(); it != nullptr; it = it->GetNextSurface()) {
model.DrawSurfaceWireframe(*it);
}
for (auto* it = model.GetFirstSortedSurface(); it != nullptr; it = it->GetNextSurface()) {
model.DrawSurfaceWireframe(*it);
}
}
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constexpr bool TestBit(const u32* words, size_t bit) { return (words[bit / 32] & (1U << (bit & 0x1f))) != 0; }
void CCubeRenderer::ActivateLightsForModel(const CAreaListItem* areaItem, CCubeModel& model) {
constexpr u32 LightCount = 4;
GX::LightMask lightMask;
if (!x300_dynamicLights.empty()) {
std::array<u32, LightCount> addedLights{};
std::array<float, LightCount> lightRads{-1.f, -1.f, -1.f, -1.f};
u32 lightOctreeWordCount = 0;
const u32* lightOctreeWords = nullptr;
if (areaItem != nullptr && model.GetIndex() != UINT32_MAX) {
lightOctreeWordCount = areaItem->x4_octTree->x14_bitmapWordCount;
lightOctreeWords = areaItem->x1c_lightOctreeWords.data();
}
u32 lightIdx = 0;
for (const auto& light : x300_dynamicLights) {
if (lightIdx >= LightCount) {
break;
}
if (lightOctreeWords == nullptr || TestBit(lightOctreeWords, model.GetIndex())) {
bool loaded = false;
const float radius =
model.GetBounds().intersectionRadius(zeus::CSphere(light.GetPosition(), light.GetRadius()));
if (lightIdx > 0) {
for (u32 i = 0; i < lightIdx; ++i) {
if (addedLights[i] == light.GetId()) {
if (radius >= 0.f && radius < lightRads[i]) {
lightRads[i] = radius;
CGraphics::LoadLight(i, light);
loaded = true;
}
break;
}
}
}
if (!loaded) {
lightRads[lightIdx] = radius;
if (radius >= 0.f) {
CGraphics::LoadLight(lightIdx, light);
addedLights[lightIdx] = light.GetId();
lightMask.set(lightIdx);
++lightIdx;
}
}
}
lightOctreeWords += lightOctreeWordCount;
}
}
if (lightMask.any()) {
CGraphics::SetLightState(lightMask);
CGX::SetChanMatColor(CGX::EChannelId::Channel0, zeus::skWhite);
} else {
CGraphics::DisableAllLights();
CGX::SetChanMatColor(CGX::EChannelId::Channel0, CGX::GetChanAmbColor(CGX::EChannelId::Channel0));
}
}
void CCubeRenderer::AddParticleGen(CParticleGen& gen) {
auto bounds = gen.GetBounds();
if (bounds) {
auto closestPoint = bounds->closestPointAlongVector(xb0_viewPlane.normal());
Buckets::Insert(closestPoint, *bounds, EDrawableType::Particle, reinterpret_cast<void*>(&gen), xb0_viewPlane, 0);
}
}
void CCubeRenderer::AddParticleGen(CParticleGen& gen, const zeus::CVector3f& pos, const zeus::CAABox& bounds) {
Buckets::Insert(pos, bounds, EDrawableType::Particle, reinterpret_cast<void*>(&gen), xb0_viewPlane, 0);
}
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void CCubeRenderer::AddPlaneObject(void* obj, const zeus::CAABox& aabb, const zeus::CPlane& plane, s32 type) {
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const auto closestPoint = aabb.closestPointAlongVector(xb0_viewPlane.normal());
const auto closestDist = xb0_viewPlane.pointToPlaneDist(closestPoint);
const auto furthestPoint = aabb.furthestPointAlongVector(xb0_viewPlane.normal());
const auto furthestDist = xb0_viewPlane.pointToPlaneDist(furthestPoint);
if (closestDist >= 0.f || furthestDist >= 0.f) {
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const bool zOnly = plane.normal() == zeus::skUp;
const bool invertTest = zOnly ? CGraphics::g_GXModelView.origin.z() >= plane.d()
: plane.pointToPlaneDist(CGraphics::g_GXModelView.origin) >= 0.f;
Buckets::InsertPlaneObject(closestDist, furthestDist, aabb, invertTest, plane, zOnly, EDrawableType(type + 2), obj);
}
}
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void CCubeRenderer::AddDrawable(void* obj, const zeus::CVector3f& pos, const zeus::CAABox& aabb, s32 mode,
IRenderer::EDrawableSorting sorting) {
if (sorting == EDrawableSorting::UnsortedCallback) {
xa8_drawableCallback(obj, xac_drawableCallbackUserData, mode);
} else {
Buckets::Insert(pos, aabb, EDrawableType(mode + 2), obj, xb0_viewPlane, 0);
}
}
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void CCubeRenderer::SetDrawableCallback(IRenderer::TDrawableCallback cb, void* ctx) {
xa8_drawableCallback = cb;
xac_drawableCallbackUserData = ctx;
}
void CCubeRenderer::SetWorldViewpoint(const zeus::CTransform& xf) {
CGraphics::SetViewPointMatrix(xf);
auto front = xf.frontVector();
xb0_viewPlane = zeus::CPlane(front, front.dot(xf.origin));
}
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void CCubeRenderer::SetPerspective(float fovy, float aspect, float znear, float zfar) {
CGraphics::SetPerspective(fovy, aspect, znear, zfar);
}
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void CCubeRenderer::SetPerspective(float fovy, float width, float height, float znear, float zfar) {
CGraphics::SetPerspective(fovy, width / height, znear, zfar);
}
std::pair<zeus::CVector2f, zeus::CVector2f> CCubeRenderer::SetViewportOrtho(bool centered, float znear, float zfar) {
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auto left = static_cast<float>(centered ? CGraphics::GetViewportLeft() - CGraphics::GetViewportHalfWidth()
: CGraphics::GetViewportLeft());
auto bottom = static_cast<float>(centered ? CGraphics::GetViewportTop() - CGraphics::GetViewportHalfHeight()
: CGraphics::GetViewportTop());
auto right = static_cast<float>(CGraphics::GetViewportLeft() +
(centered ? CGraphics::GetViewportWidth() / 2 : CGraphics::GetViewportWidth()));
auto top = static_cast<float>(CGraphics::GetViewportTop() +
(centered ? CGraphics::GetViewportHeight() / 2 : CGraphics::GetViewportHeight()));
CGraphics::SetOrtho(left, right, top, bottom, znear, zfar);
CGraphics::SetViewPointMatrix({});
CGraphics::SetModelMatrix({});
return {{left, bottom}, {right, top}};
}
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void CCubeRenderer::SetClippingPlanes(const zeus::CFrustum& frustum) { x44_frustumPlanes = frustum; }
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void CCubeRenderer::SetViewport(s32 left, s32 bottom, s32 width, s32 height) {
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CGraphics::SetViewport(left, bottom, width, height);
CGraphics::SetScissor(left, bottom, width, height);
}
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void CCubeRenderer::BeginScene() {
CGraphics::SetUseVideoFilter(true);
CGraphics::SetViewport(0, 0, CGraphics::g_Viewport.x8_width, CGraphics::g_Viewport.xc_height);
CGraphics::SetClearColor(zeus::skClear);
CGraphics::SetCullMode(ERglCullMode::Front);
CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, true);
CGraphics::SetBlendMode(ERglBlendMode::Blend, ERglBlendFactor::SrcAlpha, ERglBlendFactor::InvSrcAlpha,
ERglLogicOp::Clear);
CGraphics::SetPerspective(75.f, CGraphics::g_Viewport.x8_width / CGraphics::g_Viewport.xc_height, 1.f, 4096.f);
CGraphics::SetModelMatrix(zeus::CTransform());
if (x310_phazonSuitMaskCountdown != 0) {
--x310_phazonSuitMaskCountdown;
if (x310_phazonSuitMaskCountdown == 0) {
x314_phazonSuitMask.reset();
}
}
x318_27_currentRGBA6 = x318_26_requestRGBA6;
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if (!x318_31_persistRGBA6) {
x318_26_requestRGBA6 = false;
}
// GXSetPixelFmt(x318_27_currentRGBA6, GX_ZC_LINEAR);
GXSetAlphaUpdate(true);
GXSetDstAlpha(true, 0.f);
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CGraphics::BeginScene();
}
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void CCubeRenderer::EndScene() {
x318_31_persistRGBA6 = !CGraphics::g_IsBeginSceneClearFb;
CGraphics::EndScene();
if (x2dc_reflectionAge < 2) {
++x2dc_reflectionAge;
} else {
x14c_reflectionTex.reset();
};
}
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void CCubeRenderer::SetDebugOption(IRenderer::EDebugOption option, s32 value) {
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if (option == EDebugOption::PVSState) {
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if (xc8_pvs) {
xc8_pvs->SetState(EPVSVisSetState(value));
}
} else if (option == EDebugOption::PVSMode) {
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xc0_pvsMode = EPVSMode(value);
} else if (option == EDebugOption::FogDisabled) {
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x318_28_disableFog = true;
}
}
void CCubeRenderer::BeginPrimitive(IRenderer::EPrimitiveType type, s32 nverts) {
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constexpr std::array vtxDescList{
GX::VtxDescList{GX::VA_POS, GX::DIRECT},
GX::VtxDescList{GX::VA_NRM, GX::DIRECT},
GX::VtxDescList{GX::VA_CLR0, GX::DIRECT},
GX::VtxDescList{},
};
CGX::SetChanCtrl(CGX::EChannelId::Channel0, false, GX::SRC_REG, GX::SRC_VTX, {}, GX::DF_NONE, GX::AF_NONE);
CGX::SetNumChans(1);
CGX::SetNumTexGens(0);
CGX::SetNumTevStages(1);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD_NULL, GX::TEXMAP_NULL, GX::COLOR0A0);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_ZERO, GX::CC_ZERO, GX::CC_RASC);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_ZERO, GX::CA_ZERO, GX::CA_RASA);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
x18_primVertCount = nverts;
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CGX::SetVtxDescv(vtxDescList.data());
CGX::Begin(GX::Primitive(type), GX::VTXFMT0, nverts);
}
void CCubeRenderer::BeginLines(s32 nverts) { BeginPrimitive(EPrimitiveType::Lines, nverts); }
void CCubeRenderer::BeginLineStrip(s32 nverts) { BeginPrimitive(EPrimitiveType::LineStrip, nverts); }
void CCubeRenderer::BeginTriangles(s32 nverts) { BeginPrimitive(EPrimitiveType::Triangles, nverts); }
void CCubeRenderer::BeginTriangleStrip(s32 nverts) { BeginPrimitive(EPrimitiveType::TriangleStrip, nverts); }
void CCubeRenderer::BeginTriangleFan(s32 nverts) { BeginPrimitive(EPrimitiveType::TriangleFan, nverts); }
void CCubeRenderer::PrimVertex(const zeus::CVector3f& vertex) {
--x18_primVertCount;
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GXPosition3f32(vertex);
GXNormal3f32(x2e4_primNormal);
GXColor4f32(x2e0_primColor);
}
void CCubeRenderer::PrimNormal(const zeus::CVector3f& normal) { x2e4_primNormal = normal; }
void CCubeRenderer::PrimColor(float r, float g, float b, float a) { PrimColor({r, g, b, a}); }
void CCubeRenderer::PrimColor(const zeus::CColor& color) { x2e0_primColor = color; }
void CCubeRenderer::EndPrimitive() {
while (x18_primVertCount > 0) {
PrimVertex(zeus::skZero3f);
}
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CGX::End();
}
void CCubeRenderer::SetAmbientColor(const zeus::CColor& color) { CGraphics::SetAmbientColor(color); }
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void CCubeRenderer::DrawString(const char* string, s32 x, s32 y) { x10_font.DrawString(string, x, y, zeus::skWhite); }
u32 CCubeRenderer::GetFPS() { return CGraphics::GetFPS(); }
void CCubeRenderer::CacheReflection(IRenderer::TReflectionCallback cb, void* ctx, bool clearAfter) {
// TODO
}
void CCubeRenderer::DrawSpaceWarp(const zeus::CVector3f& pt, float strength) {
if (pt.z() < 1.f) {
ReallyDrawSpaceWarp(pt, strength);
}
}
void CCubeRenderer::DrawThermalModel(CModel& model, const zeus::CColor& multCol, const zeus::CColor& addCol,
TConstVectorRef positions, TConstVectorRef normals, const CModelFlags& flags) {
model.UpdateLastFrame();
DoThermalModelDraw(model.GetInstance(), multCol, addCol, positions, normals, flags);
}
void CCubeRenderer::DrawModelDisintegrate(CModel& model, CTexture& tex, const zeus::CColor& color,
TConstVectorRef positions, TConstVectorRef normals, float t) {
tex.Load(GX::TEXMAP0, EClampMode::Clamp);
CGX::SetNumIndStages(0);
CGX::SetNumTevStages(2);
CGX::SetNumTexGens(2);
CGX::SetNumChans(0);
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_SRCALPHA, GX::BL_INVSRCALPHA, GX::LO_CLEAR);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE1);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_ZERO, GX::CC_ZERO, GX::CC_TEXC);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_ZERO, GX::CA_ZERO, GX::CA_TEXA);
CGX::SetTevColorIn(GX::TEVSTAGE1, GX::CC_ZERO, GX::CC_TEXC, GX::CC_CPREV, GX::CC_KONST);
CGX::SetTevAlphaIn(GX::TEVSTAGE1, GX::CA_ZERO, GX::CA_TEXA, GX::CA_APREV, GX::CA_ZERO);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD0, GX::TEXMAP0, GX::COLOR_NULL);
CGX::SetTevOrder(GX::TEVSTAGE1, GX::TEXCOORD1, GX::TEXMAP0, GX::COLOR_NULL);
CGX::SetTevKColorSel(GX::TEVSTAGE1, GX::TEV_KCSEL_K0);
CGX::SetTevKColor(GX::KCOLOR0, color);
const auto bounds = model.GetInstance().GetBounds();
const auto rotation = zeus::CTransform::RotateX(zeus::degToRad(-45.f));
const auto transformedBounds = bounds.getTransformedAABox(rotation);
const auto xf = zeus::CTransform::Scale(5.f / (transformedBounds.max - transformedBounds.min)) *
zeus::CTransform::Translate(-transformedBounds.min) * rotation;
const zeus::CTransform ptTex1{
zeus::CMatrix3f{
1.f, 1.f, 0.f,
0.f, 0.f, 1.f,
0.f, 0.f, 0.f,
},
zeus::CVector3f{t * -0.85f - 0.15f, -(1.f - t) * 6.f + 1.f, 1.f},
};
const zeus::CTransform ptTex0{
zeus::CMatrix3f{
1.f, 1.f, 0.f,
0.f, 0.f, 1.f,
0.f, 0.f, 0.f,
},
zeus::CVector3f{t, ptTex1.origin.y(), 1.f},
};
GXLoadTexMtxImm(&xf, GX::TEXMTX0, GX::MTX3x4);
GXLoadTexMtxImm(&ptTex0, GX::PTTEXMTX0, GX::MTX3x4);
GXLoadTexMtxImm(&ptTex1, GX::PTTEXMTX1, GX::MTX3x4);
CGX::SetTexCoordGen(GX::TEXCOORD0, GX::TG_MTX3x4, GX::TG_POS, GX::TEXMTX0, false, GX::PTTEXMTX0);
CGX::SetTexCoordGen(GX::TEXCOORD1, GX::TG_MTX3x4, GX::TG_POS, GX::TEXMTX0, false, GX::PTTEXMTX1);
CGX::SetAlphaCompare(GX::GREATER, 0, GX::AOP_AND, GX::ALWAYS, 0);
CGX::SetZMode(true, GX::LEQUAL, true);
model.UpdateLastFrame();
model.GetInstance().DrawFlat(positions, normals, ESurfaceSelection::All);
CGX::SetAlphaCompare(GX::ALWAYS, 0, GX::AOP_AND, GX::ALWAYS, 0);
}
void CCubeRenderer::DrawModelFlat(CModel& model, const CModelFlags& flags, bool unsortedOnly, TConstVectorRef positions,
TConstVectorRef normals) {
if (flags.x0_blendMode >= 7) {
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_SRCALPHA, GX::BL_ONE, GX::LO_CLEAR);
} else if (flags.x0_blendMode >= 5) {
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_SRCALPHA, GX::BL_INVSRCALPHA, GX::LO_CLEAR);
} else {
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_ONE, GX::BL_ZERO, GX::LO_CLEAR);
}
CGX::SetZMode(true, flags.x2_flags & CModelFlagBits::DepthTest ? GX::LEQUAL : GX::ALWAYS,
flags.x2_flags.IsSet(CModelFlagBits::DepthUpdate));
CGX::SetNumTevStages(1);
CGX::SetNumTexGens(1);
CGX::SetNumChans(0);
CGX::SetNumIndStages(0);
CGX::SetAlphaCompare(GX::ALWAYS, 0, GX::AOP_AND, GX::ALWAYS, 0);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_ZERO, GX::CC_ZERO, GX::CC_KONST);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_ZERO, GX::CA_ZERO, GX::CA_KONST);
CGX::SetTevKColor(GX::KCOLOR0, flags.x4_color);
CGX::SetTevKColorSel(GX::TEVSTAGE0, GX::TEV_KCSEL_K0);
CGX::SetTevKAlphaSel(GX::TEVSTAGE0, GX::TEV_KASEL_K0_A);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD_NULL, GX::TEXMAP_NULL, GX::COLOR_NULL);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
CGX::SetTevDirect(GX::TEVSTAGE0);
CGX::SetTexCoordGen(GX::TEXCOORD0, GX::TG_MTX2x4, GX::TG_POS, GX::IDENTITY, false, GX::PTIDENTITY);
model.UpdateLastFrame();
model.GetInstance().DrawFlat(positions, normals, unsortedOnly ? ESurfaceSelection::Unsorted : ESurfaceSelection::All);
}
void CCubeRenderer::SetWireframeFlags(s32 flags) {
CCubeModel::SetModelWireframe((flags & 0x1) != 0);
x318_25_drawWireframe = (flags & 0x2) != 0;
}
void CCubeRenderer::SetWorldFog(ERglFogMode mode, float startz, float endz, const zeus::CColor& color) {
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CGraphics::SetFog(x318_28_disableFog ? ERglFogMode::None : mode, startz, endz, color);
}
void CCubeRenderer::RenderFogVolume(const zeus::CColor& color, const zeus::CAABox& aabb,
const TLockedToken<CModel>* model, const CSkinnedModel* sModel) {
if (!x318_28_disableFog) {
x2ac_fogVolumes.emplace_back(CGraphics::g_GXModelMatrix, color, aabb, model, sModel);
}
}
void CCubeRenderer::SetThermal(bool thermal, float level, const zeus::CColor& color) {
x318_29_thermalVisor = thermal;
x2f0_thermalVisorLevel = level;
x2f4_thermColor = color;
CDecal::SetMoveRedToAlphaBuffer(false);
CElementGen::SetMoveRedToAlphaBuffer(false);
}
void CCubeRenderer::SetThermalColdScale(float scale) { x2f8_thermColdScale = zeus::clamp(0.f, scale, 1.f); }
void CCubeRenderer::DoThermalBlendCold() {
SCOPED_GRAPHICS_DEBUG_GROUP("CCubeRenderer::DoThermalBlendCold", zeus::skBlue);
// Capture EFB
x318_26_requestRGBA6 = true;
GXSetAlphaUpdate(true);
GXSetDstAlpha(false, 0);
const auto height = CGraphics::GetViewportHeight();
const auto width = CGraphics::GetViewportWidth();
const auto top = CGraphics::GetViewportTop();
const auto left = CGraphics::GetViewportLeft();
CGX::SetZMode(true, GX::LEQUAL, false);
// GXSetTexCopySrc(left, top, width, height);
// GXSetTexCopyDst(width, height, GX::TF_I4, false);
// GXCopyTex(sSpareTextureData, true);
CGraphics::ResolveSpareTexture(
aurora::gfx::ClipRect{
.x = static_cast<int32_t>(left),
.y = static_cast<int32_t>(top),
.width = static_cast<int32_t>(width),
.height = static_cast<int32_t>(height),
},
0, GX::TF_I4);
// CGraphics::LoadDolphinSpareTexture(width, height, GX::TF_I4, nullptr, GX::TEXMAP7);
CGraphics::LoadDolphinSpareTexture(0, GX::TF_I4, GX::TEXMAP7);
// Upload random static texture (game reads from .text)
const u8* buf = CDvdFile::GetDolBuf() + 0x4f60;
u8* out = m_thermalRandomStatic.Lock();
memcpy(out, buf + ROUND_UP_32(x2a8_thermalRand.Next()), m_thermalRandomStatic.GetMemoryAllocated());
m_thermalRandomStatic.UnLock();
m_thermalRandomStatic.Load(GX::TEXMAP0, EClampMode::Clamp);
m_thermalRandomStatic.Load(GX::TEXMAP1, EClampMode::Clamp);
// Configure indirect texturing
const float level = std::clamp(x2f0_thermalVisorLevel * 0.5f, 0.f, 0.5f);
const aurora::Mat3x2<float> mtx{
aurora::Vec2{(1.f - level) * 0.1f, 0.f},
aurora::Vec2{0.f, 0.f},
aurora::Vec2{0.f, level},
};
GXSetIndTexMtx(GX::ITM_0, &mtx, -2);
CGX::SetTevIndirect(GX::TEVSTAGE0, GX::INDTEXSTAGE0, GX::ITF_8, GX::ITB_STU, GX::ITM_0, GX::ITW_OFF, GX::ITW_OFF,
false, false, GX::ITBA_OFF);
GXSetIndTexOrder(GX::INDTEXSTAGE0, GX::TEXCOORD0, GX::TEXMAP0);
// Configure register colors
const auto color0 = zeus::CColor::lerp(x2f4_thermColor, zeus::skWhite, x2f8_thermColdScale);
const float bAlpha = x2f8_thermColdScale < 0.5f ? x2f8_thermColdScale * 2.f : 1.f;
const float bFac = (1.f - bAlpha) / 8.f;
const zeus::CColor color1{bFac, bAlpha};
float cFac;
if (x2f8_thermColdScale < 0.25f) {
cFac = 0.f;
} else if (x2f8_thermColdScale >= 1.f) {
cFac = 1.f;
} else {
cFac = (x2f8_thermColdScale - 0.25f) * 4.f / 3.f;
}
const zeus::CColor color2{cFac, cFac};
GXSetTevColor(GX::TEVREG0, color0);
GXSetTevColor(GX::TEVREG1, color1);
GXSetTevColor(GX::TEVREG2, color2);
// Configure TEV stage 0
GXSetTevSwapMode(GX::TEVSTAGE0, GX::TEV_SWAP0, GX::TEV_SWAP1);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_TEXC, GX::CC_C0, GX::CC_C2);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_TEXA, GX::CA_A1, GX::CA_A2);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD0, GX::TEXMAP7, GX::COLOR_NULL);
// Configure TEV stage 1
GXSetTevSwapMode(GX::TEVSTAGE1, GX::TEV_SWAP0, GX::TEV_SWAP1);
CGX::SetTevColorIn(GX::TEVSTAGE1, GX::CC_ZERO, GX::CC_TEXC, GX::CC_C1, GX::CC_CPREV);
CGX::SetTevColorOp(GX::TEVSTAGE1, GX::TEV_SUB, GX::TB_ZERO, GX::CS_SCALE_1, true, GX::TEVPREV);
CGX::SetTevAlphaIn(GX::TEVSTAGE1, GX::CA_ZERO, GX::CA_A1, GX::CA_TEXA, GX::CA_APREV);
CGX::SetTevAlphaOp(GX::TEVSTAGE1, GX::TEV_ADD, GX::TB_ZERO, GX::CS_SCALE_4, true, GX::TEVPREV);
CGX::SetTevOrder(GX::TEVSTAGE1, GX::TEXCOORD0, GX::TEXMAP1, GX::COLOR_NULL);
// Configure everything else
CGX::SetTexCoordGen(GX::TEXCOORD0, GX::TG_MTX3x4, GX::TG_TEX0, GX::IDENTITY, false, GX::PTIDENTITY);
CGX::SetAlphaCompare(GX::ALWAYS, 0, GX::AOP_AND, GX::ALWAYS, 0);
CGX::SetNumTevStages(2);
CGX::SetNumTexGens(1);
CGX::SetNumChans(0);
CGX::SetNumIndStages(1);
CGX::SetZMode(false, GX::ALWAYS, false);
constexpr std::array vtxDescList{
GX::VtxDescList{GX::VA_POS, GX::DIRECT},
GX::VtxDescList{GX::VA_TEX0, GX::DIRECT},
GX::VtxDescList{},
};
CGX::SetVtxDescv(vtxDescList.data());
CGX::SetBlendMode(GX::BM_NONE, GX::BL_ONE, GX::BL_ZERO, GX::LO_CLEAR);
// Backup & set viewport/projection
const auto backupViewMatrix = CGraphics::g_ViewMatrix;
const auto backupProjectionState = CGraphics::GetProjectionState();
CGraphics::SetOrtho(0.f, static_cast<float>(width), 0.f, static_cast<float>(height), -4096.f, 4096.f);
CGraphics::SetViewPointMatrix({});
CGraphics::SetModelMatrix({});
GXPixModeSync();
// Draw
CGX::Begin(GX::TRIANGLEFAN, GX::VTXFMT0, 4);
GXPosition3f32(0.f, 0.5f, 0.f);
GXTexCoord2f32(0.f, 0.f);
GXPosition3f32(0.f, 0.5f, static_cast<float>(height));
GXTexCoord2f32(0.f, 1.f);
GXPosition3f32(static_cast<float>(width), 0.5f, static_cast<float>(height));
GXTexCoord2f32(1.f, 1.f);
GXPosition3f32(static_cast<float>(width), 0.5f, 0.f);
GXTexCoord2f32(1.f, 0.f);
CGX::End();
// Cleanup
GXSetTevSwapMode(GX::TEVSTAGE0, GX::TEV_SWAP0, GX::TEV_SWAP0);
GXSetTevSwapMode(GX::TEVSTAGE1, GX::TEV_SWAP0, GX::TEV_SWAP0);
CGX::SetNumIndStages(0);
CGX::SetTevDirect(GX::TEVSTAGE0);
GXSetDstAlpha(false, 255);
CGraphics::SetProjectionState(backupProjectionState);
CGraphics::SetViewPointMatrix(backupViewMatrix);
CDecal::SetMoveRedToAlphaBuffer(true);
CElementGen::SetMoveRedToAlphaBuffer(true);
}
void CCubeRenderer::DoThermalBlendHot() {
SCOPED_GRAPHICS_DEBUG_GROUP("CCubeRenderer::DoThermalBlendHot", zeus::skRed);
GXSetAlphaUpdate(false);
GXSetDstAlpha(true, 0);
const auto height = CGraphics::GetViewportHeight();
const auto width = CGraphics::GetViewportWidth();
const auto top = CGraphics::GetViewportTop();
const auto left = CGraphics::GetViewportLeft();
CGX::SetZMode(true, GX::LEQUAL, true);
// GXSetTexCopySrc(left, top, width, height);
// GXSetTexCopyDst(width, height, GX::TF_I4, false);
// GXCopyTex(sSpareTextureData, false);
CGraphics::ResolveSpareTexture(CGraphics::g_Viewport, 0, GX::TF_I4);
x288_thermoPalette.Load();
// CGraphics::LoadDolphinSpareTexture(width, height, GX::TF_C4, GX::TLUT0, nullptr, GX::TEXMAP7);
CGraphics::LoadDolphinSpareTexture(0, GX_TF_C4, GX_TLUT0, GX::TEXMAP7);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_TEXA, GX::CC_TEXC, GX::CC_ZERO);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_ZERO, GX::CA_ZERO, GX::CA_TEXA);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD0, GX::TEXMAP7, GX::COLOR_NULL);
CGX::SetTexCoordGen(GX::TEXCOORD0, GX::TG_MTX3x4, GX::TG_TEX0, GX::IDENTITY, false, GX::PTIDENTITY);
CGX::SetAlphaCompare(GX::ALWAYS, 0, GX::AOP_AND, GX::ALWAYS, 0);
CGX::SetNumTevStages(1);
CGX::SetNumTexGens(1);
CGX::SetNumChans(0);
CGX::SetZMode(false, GX::LEQUAL, false);
constexpr std::array vtxDescList{
GX::VtxDescList{GX::VA_POS, GX::DIRECT},
GX::VtxDescList{GX::VA_TEX0, GX::DIRECT},
GX::VtxDescList{},
};
CGX::SetVtxDescv(vtxDescList.data());
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_DSTALPHA, GX::BL_INVDSTALPHA, GX::LO_CLEAR);
// Backup & set viewport/projection
const auto backupViewMatrix = CGraphics::g_ViewMatrix;
const auto backupProjectionState = CGraphics::GetProjectionState();
CGraphics::SetOrtho(0.f, static_cast<float>(width), 0.f, static_cast<float>(height), -4096.f, 4096.f);
CGraphics::SetViewPointMatrix({});
CGraphics::SetModelMatrix({});
GXPixModeSync();
// Draw
CGX::Begin(GX::TRIANGLEFAN, GX::VTXFMT0, 4);
GXPosition3f32(0.f, 0.5f, 0.f);
GXTexCoord2f32(0.f, 0.f);
GXPosition3f32(0.f, 0.5f, static_cast<float>(height));
GXTexCoord2f32(0.f, 1.f);
GXPosition3f32(static_cast<float>(width), 0.5f, static_cast<float>(height));
GXTexCoord2f32(1.f, 1.f);
GXPosition3f32(static_cast<float>(width), 0.5f, 0.f);
GXTexCoord2f32(1.f, 0.f);
CGX::End();
// Cleanup
CGX::SetNumIndStages(0);
CGX::SetTevDirect(GX::TEVSTAGE0);
GXSetAlphaUpdate(true);
CGraphics::SetProjectionState(backupProjectionState);
CGraphics::SetViewPointMatrix(backupViewMatrix);
CDecal::SetMoveRedToAlphaBuffer(false);
CElementGen::SetMoveRedToAlphaBuffer(false);
}
u32 CCubeRenderer::GetStaticWorldDataSize() {
// TODO
return 0;
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}
void CCubeRenderer::SetGXRegister1Color(const zeus::CColor& color) { GXSetTevColor(GX::TevRegID::TEVREG1, color); }
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void CCubeRenderer::SetWorldLightFadeLevel(float level) { x2fc_tevReg1Color = zeus::CColor(level, level, level, 1.f); }
void CCubeRenderer::PrepareDynamicLights(const std::vector<CLight>& lights) {
x300_dynamicLights = lights;
for (CAreaListItem& area : x1c_areaListItems) {
if (const CAreaRenderOctTree* arot = area.x4_octTree) {
area.x1c_lightOctreeWords.clear();
area.x1c_lightOctreeWords.resize(arot->x14_bitmapWordCount * lights.size());
u32* wordPtr = area.x1c_lightOctreeWords.data();
for (const CLight& light : lights) {
float radius = light.GetRadius();
zeus::CVector3f vMin = light.GetPosition() - radius;
zeus::CVector3f vMax = light.GetPosition() + radius;
zeus::CAABox aabb(vMin, vMax);
arot->FindOverlappingModels(wordPtr, aabb);
wordPtr += arot->x14_bitmapWordCount;
}
}
}
}
void CCubeRenderer::AllocatePhazonSuitMaskTexture() {
x318_26_requestRGBA6 = true;
if (!x314_phazonSuitMask) {
x314_phazonSuitMask = std::make_unique<CTexture>(ETexelFormat::I8, CGraphics::GetViewportWidth() / 4,
CGraphics::GetViewportHeight() / 4, 1, "Phazon Suit Mask"sv);
}
x310_phazonSuitMaskCountdown = 2;
}
void CCubeRenderer::DrawPhazonSuitIndirectEffect(const zeus::CColor& nonIndirectMod,
const TLockedToken<CTexture>& indTex, const zeus::CColor& indirectMod,
float blurRadius, float scale, float offX, float offY) {
if (x318_27_currentRGBA6 && x310_phazonSuitMaskCountdown != 0) {
const auto backupViewMatrix = CGraphics::g_ViewMatrix;
const auto backupProjectionState = CGraphics::GetProjectionState();
if (!x314_phazonSuitMask || x314_phazonSuitMask->GetWidth() != CGraphics::GetViewportWidth() / 4 ||
x314_phazonSuitMask->GetHeight() != CGraphics::GetViewportHeight() / 4) {
return;
}
DoPhazonSuitIndirectAlphaBlur(blurRadius, blurRadius);
// TODO copy into x314_phazonSuitMask
if (indTex) {
ReallyDrawPhazonSuitIndirectEffect(zeus::skWhite, *x314_phazonSuitMask, const_cast<CTexture&>(*indTex),
indirectMod, scale, offX, offY);
} else {
ReallyDrawPhazonSuitEffect(nonIndirectMod, *x314_phazonSuitMask);
}
// TODO unlock x314
CGraphics::SetViewPointMatrix(backupViewMatrix);
CGraphics::SetProjectionState(backupProjectionState);
x310_phazonSuitMaskCountdown = 2;
}
GXSetDstAlpha(false, 0.f);
}
void CCubeRenderer::DrawXRayOutline(const zeus::CAABox& aabb) {
// TODO
}
std::list<CCubeRenderer::CAreaListItem>::iterator
CCubeRenderer::FindStaticGeometry(const std::vector<CMetroidModelInstance>* geometry) {
return std::find_if(x1c_areaListItems.begin(), x1c_areaListItems.end(),
[&](const CAreaListItem& item) { return item.x0_geometry == geometry; });
}
void CCubeRenderer::FindOverlappingWorldModels(std::vector<u32>& modelBits, const zeus::CAABox& aabb) const {
// TODO
}
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s32 CCubeRenderer::DrawOverlappingWorldModelIDs(s32 alphaVal, const std::vector<u32>& modelBits,
const zeus::CAABox& aabb) {
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SetupRendererStates(true);
// TODO
return 0;
}
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void CCubeRenderer::DrawOverlappingWorldModelShadows(s32 alphaVal, const std::vector<u32>& modelBits,
const zeus::CAABox& aabb, float alpha) {
// TODO
}
void CCubeRenderer::SetupCGraphicsState() {
CGraphics::DisableAllLights();
CGraphics::SetModelMatrix({});
CTevCombiners::ResetStates();
CGraphics::SetAmbientColor({0.4f});
CGX::SetChanMatColor(CGX::EChannelId::Channel0, zeus::skWhite);
CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, true);
CGX::SetChanCtrl(CGX::EChannelId::Channel1, false, GX::SRC_REG, GX::SRC_REG, GX::LIGHT_NULL, GX::DF_NONE,
GX::AF_NONE);
CCubeMaterial::EnsureTevsDirect();
}
void CCubeRenderer::SetupRendererStates(bool depthWrite) {
CGraphics::DisableAllLights();
CGraphics::SetModelMatrix({});
CGraphics::SetAmbientColor(zeus::skClear);
CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, depthWrite);
CCubeMaterial::ResetCachedMaterials();
GXSetTevColor(GX::TEVREG1, x2fc_tevReg1Color);
}
constexpr zeus::CTransform MvPostXf{
{zeus::CVector3f{0.5f, 0.f, 0.f}, {0.f, 0.f, 0.f}, {0.f, 0.5f, 0.f}},
{0.5f, 0.5f, 1.f},
};
void CCubeRenderer::DoThermalModelDraw(CCubeModel& model, const zeus::CColor& multCol, const zeus::CColor& addCol,
TConstVectorRef positions, TConstVectorRef normals, const CModelFlags& flags) {
SCOPED_GRAPHICS_DEBUG_GROUP("CCubeRenderer::DoThermalModelDraw", zeus::skBlue);
CGX::SetTexCoordGen(GX::TEXCOORD0, GX::TG_MTX3x4, GX::TG_NRM, GX::TEXMTX0, true, GX::PTTEXMTX0);
CGX::SetNumTexGens(1);
CGX::SetNumChans(0);
x220_sphereRamp.Load(GX::TEXMAP0, EClampMode::Clamp);
zeus::CTransform xf = CGraphics::g_ViewMatrix.inverse().multiplyIgnoreTranslation(CGraphics::g_GXModelMatrix);
xf.origin.zeroOut();
GXLoadTexMtxImm(&xf, GX::TEXMTX0, GX::MTX3x4);
GXLoadTexMtxImm(&MvPostXf, GX::PTTEXMTX0, GX::MTX3x4);
CGX::SetStandardTevColorAlphaOp(GX::TEVSTAGE0);
CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_C0, GX::CC_TEXC, GX::CC_KONST);
CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_TEXA, GX::CA_A0, GX::CA_KONST);
CGX::SetTevOrder(GX::TEVSTAGE0, GX::TEXCOORD0, GX::TEXMAP0, GX::COLOR_NULL);
CGX::SetNumTevStages(1);
CGX::SetTevKColor(GX::KCOLOR0, addCol);
CGX::SetTevKColorSel(GX::TEVSTAGE0, GX::TEV_KCSEL_K0);
CGX::SetTevKAlphaSel(GX::TEVSTAGE0, GX::TEV_KASEL_K0_A);
GXSetTevColor(GX::TEVREG0, multCol);
CGX::SetAlphaCompare(GX::ALWAYS, 0, GX::AOP_OR, GX::ALWAYS, 0);
CGX::SetBlendMode(GX::BM_BLEND, GX::BL_ONE, GX::BL_ONE, GX::LO_CLEAR);
CGX::SetZMode(flags.x2_flags.IsSet(CModelFlagBits::DepthTest), GX::LEQUAL,
flags.x2_flags.IsSet(CModelFlagBits::DepthUpdate));
model.DrawFlat(positions, normals,
flags.x2_flags.IsSet(CModelFlagBits::ThermalUnsortedOnly) ? ESurfaceSelection::Unsorted
: ESurfaceSelection::All);
}
void CCubeRenderer::ReallyDrawSpaceWarp(const zeus::CVector3f& pt, float strength) {
// TODO
}
void CCubeRenderer::ReallyRenderFogVolume(const zeus::CColor& color, const zeus::CAABox& aabb, const CModel* model,
const CSkinnedModel* sModel) {
// TODO
}
} // namespace metaforce