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metaforce/Runtime/Graphics/CBooRenderer.cpp

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#include "boo/System.hpp"
#include "GameGlobalObjects.hpp"
#include "CBooRenderer.hpp"
#include "CModel.hpp"
#include "Particle/CParticleGen.hpp"
#include "Particle/CGenDescription.hpp"
#include "Particle/CDecal.hpp"
#include "Particle/CElementGen.hpp"
#include "CMetroidModelInstance.hpp"
#include "Collision/CAreaOctTree.hpp"
#include "zeus/CUnitVector.hpp"
#include "Graphics/CSkinnedModel.hpp"
#include "zeus/CVector3d.hpp"
#include "World/CActor.hpp"
#define FOGVOL_RAMP_RES 256
#define FOGVOL_FAR 750.0
#define FOGVOL_NEAR 0.2
#define SPHERE_RAMP_RES 32
namespace urde
{
static logvisor::Module Log("CBooRenderer");
static rstl::reserved_vector<CDrawable, 4096> sDataHolder;
static rstl::reserved_vector<rstl::reserved_vector<CDrawable*, 128>, 50> sBucketsHolder;
static rstl::reserved_vector<CDrawablePlaneObject, 8> sPlaneObjectDataHolder;
static rstl::reserved_vector<u16, 8> sPlaneObjectBucketHolder;
rstl::reserved_vector<u16, 50> Buckets::sBucketIndex;
rstl::reserved_vector<CDrawable, 4096>* Buckets::sData = nullptr;
rstl::reserved_vector<rstl::reserved_vector<CDrawable*, 128>, 50>* Buckets::sBuckets = nullptr;
rstl::reserved_vector<CDrawablePlaneObject, 8>* Buckets::sPlaneObjectData = nullptr;
rstl::reserved_vector<u16, 8>* Buckets::sPlaneObjectBucket = nullptr;
const float Buckets::skWorstMinMaxDistance[2] = {99999.f, -99999.f};
float Buckets::sMinMaxDistance[2];
void Buckets::Clear()
{
sData->clear();
sBucketIndex.clear();
sPlaneObjectData->clear();
sPlaneObjectBucket->clear();
for (rstl::reserved_vector<CDrawable*, 128>& bucket : *sBuckets)
bucket.clear();
sMinMaxDistance[0] = skWorstMinMaxDistance[0];
sMinMaxDistance[1] = skWorstMinMaxDistance[1];
}
void Buckets::Sort()
{
float delta = std::max(1.f, sMinMaxDistance[1] - sMinMaxDistance[0]);
float pitch = 49.f / delta;
for (auto it = sPlaneObjectData->begin() ; it != sPlaneObjectData->end() ; ++it)
if (sPlaneObjectBucket->size() != sPlaneObjectBucket->capacity())
sPlaneObjectBucket->push_back(s16(it - sPlaneObjectData->begin()));
u32 precision = 50;
if (sPlaneObjectBucket->size())
{
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));
int accum = 0;
for (u16 idx : *sPlaneObjectBucket)
{
++accum;
CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[idx];
planeObj.x24_targetBucket = u16(precision * accum);
}
}
for (CDrawable& drawable : *sData)
{
int slot;
float relDist = drawable.GetDistance() - sMinMaxDistance[0];
if (sPlaneObjectBucket->empty())
{
slot = zeus::clamp(1, int(relDist * pitch), 49);
}
else
{
slot = zeus::clamp(0, int(relDist * pitch), int(precision) - 2);
for (u16 idx : *sPlaneObjectBucket)
{
CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[idx];
bool partial, full;
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().vec)) > 0.f;
full = planeObj.GetPlane().pointToPlaneDist(
drawable.GetBounds().furthestPointAlongVector(planeObj.GetPlane().vec)) > 0.f;
}
bool cont;
if (drawable.GetType() == EDrawableType::Particle)
cont = planeObj.x3c_24_invertTest ? !partial : full;
else
cont = planeObj.x3c_24_invertTest ? (!partial || !full) : (partial || full);
if (!cont)
break;
slot += precision;
}
}
if (slot == -1)
slot = 49;
rstl::reserved_vector<CDrawable*, 128>& bucket = (*sBuckets)[slot];
if (bucket.size() < bucket.capacity())
bucket.push_back(&drawable);
}
u16 bucketIdx = u16(sBuckets->size());
for (auto it = sBuckets->rbegin() ; it != sBuckets->rend() ; ++it)
{
--bucketIdx;
sBucketIndex.push_back(bucketIdx);
rstl::reserved_vector<CDrawable*, 128>& 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];
rstl::reserved_vector<CDrawable*, 128>& 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, const void* data)
{
if (sPlaneObjectData->size() == sPlaneObjectData->capacity())
return;
sPlaneObjectData->push_back(CDrawablePlaneObject(dtype, closeDist, farDist, aabb, invertTest, plane, zOnly, data));
}
void Buckets::Insert(const zeus::CVector3f& pos, const zeus::CAABox& aabb, EDrawableType dtype,
const void* data, const zeus::CPlane& plane, u16 extraSort)
{
if (sData->size() != sData->capacity())
{
float dist = plane.pointToPlaneDist(pos);
sData->push_back(CDrawable(dtype, extraSort, dist, aabb, data));
if (sMinMaxDistance[0] > dist)
sMinMaxDistance[0] = dist;
if (sMinMaxDistance[1] < dist)
sMinMaxDistance[1] = dist;
}
else
{
Log.report(logvisor::Fatal, "Rendering buckets filled to capacity");
}
}
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[0] = skWorstMinMaxDistance[0];
sMinMaxDistance[1] = skWorstMinMaxDistance[1];
}
CBooRenderer::CAreaListItem::CAreaListItem(const std::vector<CMetroidModelInstance>* geom,
const CAreaRenderOctTree* octTree,
std::vector<TCachedToken<CTexture>>&& textures,
std::vector<CBooModel*>&& models, int areaIdx,
const SShader* shaderSet)
: x0_geometry(geom), x4_octTree(octTree), x8_textures(std::move(textures)),
x10_models(std::move(models)), x18_areaIdx(areaIdx), m_shaderSet(shaderSet) {}
CBooRenderer::CAreaListItem::~CAreaListItem() {}
static inline bool TestBit(const u32* words, int bit)
{
return (words[bit / 32] & (1 << (bit & 0x1f))) != 0;
}
void CBooRenderer::ActivateLightsForModel(CAreaListItem* item, CBooModel& model)
{
std::vector<CLight> thisLights;
thisLights.reserve(4);
if (x300_dynamicLights.size())
{
u32 lightOctreeWordCount = 0;
u32* lightOctreeWords = nullptr;
if (item && model.x44_areaInstanceIdx != -1)
{
lightOctreeWordCount = item->x4_octTree->x14_bitmapWordCount;
lightOctreeWords = item->x1c_lightOctreeWords.data();
}
float lightRads[4] = {-1.f, -1.f, -1.f, -1.f};
CLight* lightRefs[4] = {};
auto it = x300_dynamicLights.begin();
for (int i=0 ; i<4 && it != x300_dynamicLights.end() ; ++it, lightOctreeWords += lightOctreeWordCount)
{
CLight& refLight = *it;
if (lightOctreeWords && !TestBit(lightOctreeWords, model.x44_areaInstanceIdx))
continue;
bool foundLight = false;
for (int j=0 ; j<i ; ++j)
{
if (lightRefs[j] == &refLight)
continue;
float radius = model.x20_aabb.intersectionRadius(
zeus::CSphere(refLight.GetPosition(), refLight.GetRadius()));
if (radius < 0.f)
break;
if (lightRads[j] <= radius)
break;
lightRads[j] = radius;
lightRefs[j] = &refLight;
thisLights.push_back(refLight);
foundLight = true;
}
if (foundLight)
continue;
float radius = model.x20_aabb.intersectionRadius(
zeus::CSphere(refLight.GetPosition(), refLight.GetRadius()));
if (radius < 0.f)
continue;
lightRads[i] = radius;
lightRefs[i] = &refLight;
thisLights.push_back(refLight);
++i;
}
}
model.ActivateLights(thisLights);
}
void CBooRenderer::RenderBucketItems(CAreaListItem* item)
{
CModelFlags flags;
flags.m_extendedShader = EExtendedShader::Lighting;
for (u16 idx : Buckets::sBucketIndex)
{
rstl::reserved_vector<CDrawable*, 128>& bucket = (*Buckets::sBuckets)[idx];
for (CDrawable* drawable : bucket)
{
switch (drawable->GetType())
{
case EDrawableType::Particle:
{
static_cast<CParticleGen*>((void*)drawable->GetData())->Render();
break;
}
case EDrawableType::WorldSurface:
{
//SetupRendererStates();
CBooSurface* surf = static_cast<CBooSurface*>((void*)drawable->GetData());
CBooModel* model = surf->m_parent;
if (model)
{
ActivateLightsForModel(item, *model);
model->DrawSurface(*surf, flags);
}
break;
}
default:
{
if (xa8_drawableCallback)
{
xa8_drawableCallback(drawable->GetData(), xac_callbackContext,
int(drawable->GetType()) - 2);
}
break;
}
}
}
}
}
void CBooRenderer::HandleUnsortedModel(CAreaListItem* item, CBooModel& model, const CModelFlags& flags)
{
//ActivateLightsForModel(item, model);
CBooSurface* surf = model.x38_firstUnsortedSurface;
while (surf)
{
model.DrawSurface(*surf, flags);
surf = surf->m_next;
}
}
static const struct FogVolumeControl
{
u32 xfc_[12][2] =
{
{0, 1},
{1, 3},
{3, 2},
{2, 0},
{4, 5},
{5, 7},
{7, 6},
{6, 4},
{0, 4},
{1, 5},
{3, 7},
{2, 6}
};
u32 x15c_[8] = {};
//GXVtxDescList x17c_; {{POS, DIRECT}, {TEX0, DIRECT}}
} s_FogVolumeCtrl = {};
static const int OrthogonalAxis[3][2] =
{
{1, 2},
{0, 2},
{0, 1}
};
static float GetPlaneInterpolant(const zeus::CPlane& plane,
const zeus::CVector3f& vert1,
const zeus::CVector3f& vert2)
{
return zeus::clamp(0.f, -plane.pointToPlaneDist(vert1) / (vert2 - vert1).dot(plane.normal()), 1.f);
}
void CBooRenderer::CalcDrawFogFan(const zeus::CPlane* planes, int numPlanes, const zeus::CVector3f* verts,
int numVerts, int iteration, int level, CFogVolumePlaneShader& fogVol)
{
if (level == iteration)
{
CalcDrawFogFan(planes, numPlanes, verts, numVerts, iteration, level + 1, fogVol);
return;
}
if (level == numPlanes)
{
fogVol.addFan(verts, numVerts);
return;
}
const zeus::CPlane& plane = planes[level];
u32 insidePlaneCount = 0;
bool outsidePlane[20];
for (int i=0 ; i<numVerts ; ++i)
outsidePlane[insidePlaneCount++] = plane.normal().dot(verts[i]) < plane.d;
u32 numUseVerts = 0;
zeus::CVector3f useVerts[20];
for (int i=0 ; i<numVerts ; ++i)
{
int nextIdx = (i + 1) % numVerts;
int insidePair = int(outsidePlane[i]) | (int(outsidePlane[nextIdx]) << 1);
if (!(insidePair & 0x1))
useVerts[numUseVerts++] = verts[i];
if (insidePair == 1 || insidePair == 2)
{
/* Inside/outside transition; clip verts to other plane boundary */
const zeus::CVector3f vert1 = verts[i];
const zeus::CVector3f vert2 = verts[nextIdx];
float interp = GetPlaneInterpolant(plane, vert1, vert2);
if (interp > 0.f || interp < 1.f)
useVerts[numUseVerts++] = (vert1 * (1.f - interp)) + (vert2 * interp);
}
}
if (numUseVerts >= 3)
CalcDrawFogFan(planes, numPlanes, useVerts, numUseVerts, iteration, level + 1, fogVol);
}
void CBooRenderer::DrawFogSlices(const zeus::CPlane* planes, int numPlanes,
int iteration, const zeus::CVector3f& center, float longestAxis,
CFogVolumePlaneShader& fogVol)
{
u32 vertCount = 0;
zeus::CVector3d verts[4];
u32 vert2Count = 0;
zeus::CVector3f verts2[4];
const zeus::CPlane& plane = planes[iteration];
int longestNormAxis = std::fabs(plane[1]) > std::fabs(plane[0]);
if (std::fabs(plane[2]) > std::fabs(plane[longestNormAxis]))
longestNormAxis = 2;
zeus::CVector3d pointOnPlane = center - (plane.pointToPlaneDist(center) * plane.normal());
float deltaSign = plane[longestNormAxis] >= 0.f ? -1.f : 1.f;
if (longestNormAxis == 1)
deltaSign = -deltaSign;
zeus::CVector3d vec1;
zeus::CVector3d vec2;
vec1[OrthogonalAxis[longestNormAxis][0]] = longestAxis;
vec2[OrthogonalAxis[longestNormAxis][1]] = deltaSign * longestAxis;
verts[vertCount++] = pointOnPlane - vec1 - vec2;
verts[vertCount++] = pointOnPlane + vec1 - vec2;
verts[vertCount++] = pointOnPlane + vec1 + vec2;
verts[vertCount++] = pointOnPlane - vec1 + vec2;
zeus::CVector3d planeNormal = plane.normal();
for (const zeus::CVector3d& vert : verts)
verts2[vert2Count++] = vert - (planeNormal * zeus::CVector3f(planeNormal.dot(vert) - plane.d));
CalcDrawFogFan(planes, numPlanes, verts2, vert2Count, iteration, 0, fogVol);
}
void CBooRenderer::RenderFogVolumeModel(const zeus::CAABox& aabb, const CModel* model,
const zeus::CTransform& modelMtx, const zeus::CTransform& viewMtx,
const CSkinnedModel* sModel, int pass, CFogVolumePlaneShader* fvs)
{
if (!model && !sModel)
{
if (pass == 0)
{
zeus::CAABox xfAABB = aabb.getTransformedAABox(modelMtx);
zeus::CUnitVector3f viewNormal(viewMtx.basis[1]);
zeus::CPlane planes[7] =
{
{zeus::CVector3f::skRight, xfAABB.min.x},
{zeus::CVector3f::skLeft, -xfAABB.max.x},
{zeus::CVector3f::skForward, xfAABB.min.y},
{zeus::CVector3f::skBack, -xfAABB.max.y},
{zeus::CVector3f::skUp, xfAABB.min.z},
{zeus::CVector3f::skDown, -xfAABB.max.z},
{viewNormal, viewNormal.dot(viewMtx.origin) + 0.2f + 0.1f}
};
CGraphics::SetModelMatrix(zeus::CTransform::Identity());
float longestAxis = std::max(std::max(
xfAABB.max.x - xfAABB.min.x,
xfAABB.max.y - xfAABB.min.y),
xfAABB.max.z - xfAABB.min.z) * 2.f;
fvs->reset(7 * 6);
for (int i=0 ; i<7 ; ++i)
DrawFogSlices(planes, 7, i, xfAABB.center(), longestAxis, *fvs);
fvs->draw(0);
}
else
{
fvs->draw(pass);
}
}
else
{
CModelFlags flags;
switch (pass)
{
case 0:
default:
flags.m_extendedShader = EExtendedShader::SolidColorFrontfaceCullLEqualAlphaOnly;
flags.x4_color = zeus::CColor(1.f, 1.f, 1.f, 1.f);
break;
case 1:
flags.m_extendedShader = EExtendedShader::SolidColorFrontfaceCullAlwaysAlphaOnly;
flags.x4_color = zeus::CColor(1.f, 1.f, 1.f, 1.f);
break;
case 2:
flags.m_extendedShader = EExtendedShader::SolidColorBackfaceCullLEqualAlphaOnly;
flags.x4_color = zeus::CColor(1.f, 1.f, 1.f, 0.f);
break;
case 3:
flags.m_extendedShader = EExtendedShader::SolidColorBackfaceCullGreaterAlphaOnly;
flags.x4_color = zeus::CColor(1.f, 1.f, 1.f, 0.f);
break;
}
if (sModel)
{
sModel->Draw(flags);
}
else
{
model->UpdateLastFrame();
model->Draw(flags);
}
}
}
void CBooRenderer::SetupRendererStates() const
{
CGraphics::SetModelMatrix(zeus::CTransform::Identity());
CGraphics::g_ColorRegs[1] = x2fc_tevReg1Color;
}
void CBooRenderer::ReallyRenderFogVolume(const zeus::CColor& color, const zeus::CAABox& aabb,
const CModel* model, const CSkinnedModel* sModel)
{
zeus::CMatrix4f proj = CGraphics::GetPerspectiveProjectionMatrix(false);
zeus::CVector4f points[8];
for (int i=0 ; i<8 ; ++i)
{
zeus::CVector3f xfPt = CGraphics::g_GXModelView * aabb.getPoint(i);
points[i] = proj * zeus::CVector4f(xfPt);
}
zeus::CVector2i vpMax(0, 0);
zeus::CVector2i vpMin(g_Viewport.x8_width, g_Viewport.xc_height);
bool b1 = true;
for (int i=0 ; i<20 ; ++i)
{
zeus::CVector3f overW;
if (i < 8)
{
overW = points[i].toVec3f() * (1.f / points[i].w);
}
else
{
const zeus::CVector4f& pt1 = points[s_FogVolumeCtrl.xfc_[i-8][0]];
const zeus::CVector4f& pt2 = points[s_FogVolumeCtrl.xfc_[i-8][1]];
bool eq1 = (pt1.z / pt1.w) == 1.f;
bool eq2 = (pt2.z / pt2.w) == 1.f;
if (eq1 == eq2)
continue;
float interp = -(pt1.w - 1.f) / (pt2.w - pt1.w);
if (interp <= 0.f || interp >= 1.f)
continue;
float wRecip = 1.f / (interp * (pt2.w - pt1.w) + pt1.w);
zeus::CVector3f pt1_3 = pt1.toVec3f();
zeus::CVector3f pt2_3 = pt2.toVec3f();
overW = (pt1_3 + interp * (pt2_3 - pt1_3)) * wRecip;
}
//if (overW.z > 1.001f)
// continue;
int vpX = zeus::clamp(0, int(g_Viewport.x8_width * overW.x * 0.5f + (g_Viewport.x8_width / 2)), int(g_Viewport.x8_width));
int vpY = zeus::clamp(0, int(g_Viewport.xc_height * overW.y * 0.5f + (g_Viewport.xc_height / 2)), int(g_Viewport.xc_height));
vpMax.x = std::max(vpMax.x, vpX);
vpMin.x = std::min(vpMin.x, vpX);
vpMax.y = std::max(vpMax.y, vpY);
vpMin.y = std::min(vpMin.y, vpY);
b1 = false;
}
zeus::CVector2i vpSize = {vpMax.x - vpMin.x, vpMax.y - vpMin.y};
if (vpSize.x <= 0 || vpSize.y <= 0)
return;
SClipScreenRect rect = {};
rect.x4_left = vpMin.x;
rect.x8_top = vpMin.y;
rect.xc_width = vpSize.x;
rect.x10_height = vpSize.y;
rect.x4_left = 0;
rect.x8_top = 0;
rect.xc_width = g_Viewport.x8_width;
rect.x10_height = g_Viewport.xc_height;
//CGraphics::SetScissor(vpMin.x, vpMin.y, vpSize.x, vpSize.y);
CFogVolumePlaneShader* fvs;
if (!model && !sModel)
{
fvs = &*((m_nextFogVolumePlaneShader == m_fogVolumePlaneShaders.end()) ?
m_fogVolumePlaneShaders.insert(m_fogVolumePlaneShaders.end(), CFogVolumePlaneShader()) :
m_nextFogVolumePlaneShader++);
}
else
{
fvs = nullptr;
}
RenderFogVolumeModel(aabb, model, CGraphics::g_GXModelMatrix, CGraphics::g_ViewMatrix, sModel, 0, fvs);
RenderFogVolumeModel(aabb, model, CGraphics::g_GXModelMatrix, CGraphics::g_ViewMatrix, sModel, 1, fvs);
CGraphics::ResolveSpareDepth(rect, 0);
RenderFogVolumeModel(aabb, model, CGraphics::g_GXModelMatrix, CGraphics::g_ViewMatrix, sModel, 2, fvs);
RenderFogVolumeModel(aabb, model, CGraphics::g_GXModelMatrix, CGraphics::g_ViewMatrix, sModel, 3, fvs);
CGraphics::ResolveSpareDepth(rect, 1);
auto fvf = (m_nextFogVolumeFilter == m_fogVolumeFilters.end()) ?
m_fogVolumeFilters.insert(m_fogVolumeFilters.end(), CFogVolumeFilter()) :
m_nextFogVolumeFilter++;
fvf->draw2WayPass(color);
fvf->draw1WayPass(color);
//CGraphics::SetScissor(g_Viewport.x0_left, g_Viewport.x4_top, g_Viewport.x8_width, g_Viewport.xc_height);
}
void CBooRenderer::GenerateFogVolumeRampTex(boo::IGraphicsDataFactory::Context& ctx)
{
u8 data[FOGVOL_RAMP_RES][FOGVOL_RAMP_RES] = {};
for (int y=0 ; y<FOGVOL_RAMP_RES ; ++y)
{
for (int x=0 ; x<FOGVOL_RAMP_RES ; ++x)
{
int tmp = y << 16 | x << 8 | 0x7f;
double a = zeus::clamp(0.0, (-150.0 / (tmp / double(0xffffff) *
(FOGVOL_FAR - FOGVOL_NEAR) - FOGVOL_FAR) - FOGVOL_NEAR) * 3.0 /
(FOGVOL_FAR - FOGVOL_NEAR), 1.0);
data[y][x] = (a * a + a) / 2.f * 255;
}
}
x1b8_fogVolumeRamp = ctx.newStaticTexture(FOGVOL_RAMP_RES, FOGVOL_RAMP_RES, 1,
boo::TextureFormat::I8, boo::TextureClampMode::Repeat, data[0],
FOGVOL_RAMP_RES * FOGVOL_RAMP_RES);
}
void CBooRenderer::GenerateSphereRampTex(boo::IGraphicsDataFactory::Context& ctx)
{
u8 data[SPHERE_RAMP_RES][SPHERE_RAMP_RES] = {};
float halfRes = SPHERE_RAMP_RES / 2.f;
for (int y=0 ; y<SPHERE_RAMP_RES ; ++y)
{
for (int x=0 ; x<SPHERE_RAMP_RES ; ++x)
{
zeus::CVector2f vec((x - halfRes) / halfRes, (y - halfRes) / halfRes);
data[y][x] = 255 - zeus::clamp(0.f, vec.canBeNormalized() ? vec.magnitude() : 0.f, 1.f) * 255;
}
}
x220_sphereRamp = ctx.newStaticTexture(SPHERE_RAMP_RES, SPHERE_RAMP_RES, 1,
boo::TextureFormat::I8, boo::TextureClampMode::Repeat, data[0],
SPHERE_RAMP_RES * SPHERE_RAMP_RES);
}
void CBooRenderer::GenerateScanLinesVBO(boo::IGraphicsDataFactory::Context& ctx)
{
std::vector<zeus::CVector3f> verts;
verts.reserve(670);
for (int i=0 ; i<112 ; ++i)
{
verts.push_back(zeus::CVector3f(-1.f, (i * (4.f / 448.f) + (1.f / 448.f)) * 2.f - 1.f, 0.f));
if (i != 0)
verts.push_back(verts.back());
verts.push_back(zeus::CVector3f(-1.f, (i * (4.f / 448.f) - (1.f / 448.f)) * 2.f - 1.f, 0.f));
verts.push_back(zeus::CVector3f( 1.f, (i * (4.f / 448.f) + (1.f / 448.f)) * 2.f - 1.f, 0.f));
verts.push_back(zeus::CVector3f( 1.f, (i * (4.f / 448.f) - (1.f / 448.f)) * 2.f - 1.f, 0.f));
if (i != 111)
verts.push_back(verts.back());
}
m_scanLinesEvenVBO = ctx.newStaticBuffer(boo::BufferUse::Vertex, verts.data(),
sizeof(zeus::CVector3f), verts.size());
verts.clear();
for (int i=0 ; i<112 ; ++i)
{
verts.push_back(zeus::CVector3f(-1.f, (i * (4.f / 448.f) + (3.f / 448.f)) * 2.f - 1.f, 0.f));
if (i != 0)
verts.push_back(verts.back());
verts.push_back(zeus::CVector3f(-1.f, (i * (4.f / 448.f) + (1.f / 448.f)) * 2.f - 1.f, 0.f));
verts.push_back(zeus::CVector3f( 1.f, (i * (4.f / 448.f) + (3.f / 448.f)) * 2.f - 1.f, 0.f));
verts.push_back(zeus::CVector3f( 1.f, (i * (4.f / 448.f) + (1.f / 448.f)) * 2.f - 1.f, 0.f));
if (i != 111)
verts.push_back(verts.back());
}
m_scanLinesOddVBO = ctx.newStaticBuffer(boo::BufferUse::Vertex, verts.data(),
sizeof(zeus::CVector3f), verts.size());
}
void CBooRenderer::LoadThermoPalette()
{
m_thermoPaletteTex = xc_store.GetObj("TXTR_ThermoPalette");
CTexture* thermoTexObj = m_thermoPaletteTex.GetObj();
if (thermoTexObj)
x288_thermoPalette = thermoTexObj->GetPaletteTexture();
}
void CBooRenderer::LoadBallFade()
{
m_ballFadeTex = xc_store.GetObj("TXTR_BallFade");
CTexture* ballFadeTexObj = m_ballFadeTex.GetObj();
if (ballFadeTexObj)
m_ballFade = ballFadeTexObj->GetBooTexture();
}
CBooRenderer::CBooRenderer(IObjectStore& store, IFactory& resFac)
: x8_factory(resFac), xc_store(store), x2a8_thermalRand(20)
{
g_Renderer = this;
xee_24_ = true;
m_staticEntropy = store.GetObj("RandomStaticEntropy");
CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx)
{
GenerateFogVolumeRampTex(ctx);
GenerateSphereRampTex(ctx);
m_ballShadowId = ctx.newRenderTexture(m_ballShadowIdW, m_ballShadowIdH, boo::TextureClampMode::Repeat, 1, 0);
x14c_reflectionTex = ctx.newRenderTexture(256, 256, boo::TextureClampMode::Repeat, 1, 0);
GenerateScanLinesVBO(ctx);
return true;
} BooTrace);
LoadThermoPalette();
LoadBallFade();
m_thermHotFilter.emplace();
Buckets::Init();
m_nextFogVolumePlaneShader = m_fogVolumePlaneShaders.end();
m_nextFogVolumeFilter = m_fogVolumeFilters.end();
}
CBooRenderer::~CBooRenderer()
{
g_Renderer = nullptr;
}
void CBooRenderer::AddWorldSurfaces(CBooModel& model)
{
CBooSurface* surf = model.x3c_firstSortedSurface;
while (surf)
{
const MaterialSet::Material& mat = model.GetMaterialByIndex(surf->m_data.matIdx);
zeus::CAABox aabb = surf->GetBounds();
zeus::CVector3f pt = aabb.closestPointAlongVector(xb0_viewPlane.vec);
Buckets::Insert(pt, aabb, EDrawableType::WorldSurface, surf, xb0_viewPlane,
mat.heclIr.m_blendSrc == boo::BlendFactor::SrcAlpha &&
mat.heclIr.m_blendDst == boo::BlendFactor::InvSrcAlpha);
surf = surf->m_next;
}
}
std::list<CBooRenderer::CAreaListItem>::iterator
CBooRenderer::FindStaticGeometry(const std::vector<CMetroidModelInstance>* geometry)
{
return std::find_if(x1c_areaListItems.begin(), x1c_areaListItems.end(),
[&](CAreaListItem& item) -> bool {return item.x0_geometry == geometry;});
}
void CBooRenderer::AddStaticGeometry(const std::vector<CMetroidModelInstance>* geometry,
const CAreaRenderOctTree* octTree, int areaIdx,
const SShader* shaderSet)
{
auto search = FindStaticGeometry(geometry);
if (search == x1c_areaListItems.end())
{
std::vector<TCachedToken<CTexture>> textures;
std::vector<CBooModel*> models;
if (geometry->size())
{
(*geometry)[0].m_instance->MakeTexturesFromMats(textures, xc_store);
models.reserve(geometry->size());
int instIdx = 0;
for (const CMetroidModelInstance& inst : *geometry)
{
models.push_back(inst.m_instance.get());
models.back()->x44_areaInstanceIdx = instIdx++;
}
}
x1c_areaListItems.emplace_back(geometry, octTree, std::move(textures), std::move(models), areaIdx, shaderSet);
}
}
void CBooRenderer::EnablePVS(const CPVSVisSet& set, u32 areaIdx)
{
xc8_pvs.emplace(set);
xe0_pvsAreaIdx = areaIdx;
}
void CBooRenderer::DisablePVS()
{
xc8_pvs = std::experimental::nullopt;
}
void CBooRenderer::UpdateAreaUniforms(int areaIdx, bool shadowRender)
{
SetupRendererStates();
CModelFlags flags;
int bufIdx;
if (shadowRender)
{
flags.m_extendedShader = EExtendedShader::SolidColor;
flags.x4_color = zeus::CColor::skBlack;
bufIdx = 1;
}
else
{
flags.m_extendedShader = EExtendedShader::Lighting;
bufIdx = 0;
}
for (CAreaListItem& item : x1c_areaListItems)
{
if (areaIdx != -1 && item.x18_areaIdx != areaIdx)
continue;
item.m_shaderSet->m_geomLayout->Update(flags, nullptr, nullptr, &item.m_shaderSet->m_matSet,
item.m_shaderSet->m_geomLayout->m_sharedBuffer[bufIdx]);
for (auto it = item.x10_models.begin(); it != item.x10_models.end(); ++it)
{
CBooModel* model = *it;
if (model->TryLockTextures())
{
ActivateLightsForModel(&item, *model);
model->UpdateUniformData(flags, nullptr, nullptr, bufIdx);
}
}
}
}
void CBooRenderer::RemoveStaticGeometry(const std::vector<CMetroidModelInstance>* geometry)
{
auto search = FindStaticGeometry(geometry);
if (search != x1c_areaListItems.end())
x1c_areaListItems.erase(search);
}
void CBooRenderer::DrawAreaGeometry(int areaIdx, int mask, int targetMask)
{
x318_30_inAreaDraw = true;
//SetupRendererStates();
CModelFlags flags;
for (CAreaListItem& item : x1c_areaListItems)
{
if (areaIdx != -1 || item.x18_areaIdx == areaIdx)
{
CPVSVisSet* pvs = xc8_pvs ? &*xc8_pvs : nullptr;
if (xe0_pvsAreaIdx != item.x18_areaIdx)
pvs = nullptr;
int modelIdx = 0;
for (auto it = item.x10_models.begin() ; it != item.x10_models.end() ; ++it, ++modelIdx)
{
CBooModel* model = *it;
if (pvs)
{
bool visible = pvs->GetVisible(modelIdx) != EPVSVisSetState::EndOfTree;
if ((xc4_pvsMode == EPVSMode::PVS && !visible) || (xc4_pvsMode == EPVSMode::PVSAndMask && visible))
continue;
}
if ((model->x41_mask & mask) != targetMask)
continue;
if (!x44_frustumPlanes.aabbFrustumTest(model->x20_aabb))
continue;
for (const CBooSurface* surf = model->x38_firstUnsortedSurface ; surf ; surf = surf->m_next)
model->DrawSurface(*surf, flags);
for (const CBooSurface* surf = model->x3c_firstSortedSurface ; surf ; surf = surf->m_next)
model->DrawSurface(*surf, flags);
}
}
}
x318_30_inAreaDraw = false;
}
void CBooRenderer::DrawUnsortedGeometry(int areaIdx, int mask, int targetMask, bool shadowRender)
{
//SetupRendererStates();
CModelFlags flags;
flags.m_extendedShader = shadowRender ? EExtendedShader::SolidColor : EExtendedShader::Lighting;
CAreaListItem* lastOctreeItem = nullptr;
for (CAreaListItem& item : x1c_areaListItems)
{
if (areaIdx != -1 && item.x18_areaIdx != areaIdx)
continue;
if (item.x4_octTree)
lastOctreeItem = &item;
CPVSVisSet* pvs = nullptr;
if (xc8_pvs)
pvs = &*xc8_pvs;
if (xe0_pvsAreaIdx != item.x18_areaIdx)
pvs = nullptr;
u32 idx = 0;
for (auto it = item.x10_models.begin() ; it != item.x10_models.end() ; ++it, ++idx)
{
CBooModel* model = *it;
if (pvs)
{
bool vis = pvs->GetVisible(idx) != EPVSVisSetState::EndOfTree;
switch (xc4_pvsMode)
{
case EPVSMode::PVS:
{
if (!vis)
{
model->x40_25_modelVisible = false;
continue;
}
break;
}
case EPVSMode::PVSAndMask:
{
if (!vis && (model->x41_mask & mask) != targetMask)
{
model->x40_25_modelVisible = false;
continue;
}
}
default: break;
}
}
if ((model->x41_mask & mask) != targetMask)
{
model->x40_25_modelVisible = false;
continue;
}
if (!x44_frustumPlanes.aabbFrustumTest(model->x20_aabb))
{
model->x40_25_modelVisible = false;
continue;
}
if (x318_25_drawWireframe)
{
model->x40_25_modelVisible = false;
//HandleUnsortedModelWireframe();
continue;
}
model->x40_25_modelVisible = true;
HandleUnsortedModel(lastOctreeItem, *model, flags);
}
}
//SetupCGraphicsStates();
}
void CBooRenderer::DrawSortedGeometry(int areaIdx, int mask, int targetMask)
{
//SetupRendererStates();
CAreaListItem* lastOctreeItem = nullptr;
for (CAreaListItem& item : x1c_areaListItems)
{
if (areaIdx != -1 && item.x18_areaIdx != areaIdx)
continue;
if (item.x4_octTree)
lastOctreeItem = &item;
for (auto it = item.x10_models.begin() ; it != item.x10_models.end() ; ++it)
{
CBooModel* model = *it;
if (model->x40_25_modelVisible)
AddWorldSurfaces(*model);
}
}
Buckets::Sort();
RenderBucketItems(lastOctreeItem);
//SetupCGraphicsStates();
//DrawRenderBucketsDebug();
Buckets::Clear();
}
void CBooRenderer::DrawStaticGeometry(int modelCount, int mask, int targetMask)
{
DrawUnsortedGeometry(modelCount, mask, targetMask);
DrawSortedGeometry(modelCount, mask, targetMask);
}
void CBooRenderer::DrawModelFlat(const CModel& model, const CModelFlags& flags, bool unsortedOnly)
{
model.GetInstance().DrawFlat(unsortedOnly ?
CBooModel::ESurfaceSelection::UnsortedOnly :
CBooModel::ESurfaceSelection::All,
flags.m_extendedShader);
}
void CBooRenderer::PostRenderFogs()
{
for (const auto& warp : x2c4_spaceWarps)
DrawSpaceWarp(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();
}
void CBooRenderer::AddParticleGen(const CParticleGen& gen)
{
auto bounds = gen.GetBounds();
if (bounds)
{
zeus::CVector3f pt = bounds.value().closestPointAlongVector(xb0_viewPlane.vec);
Buckets::Insert(pt, bounds.value(), EDrawableType::Particle, &gen, xb0_viewPlane, 0);
}
}
void CBooRenderer::AddParticleGen(const CParticleGen& gen, const zeus::CVector3f& pos, const zeus::CAABox& bounds)
{
Buckets::Insert(pos, bounds, EDrawableType::Particle, &gen, xb0_viewPlane, 0);
}
void CBooRenderer::AddPlaneObject(const void* obj, const zeus::CAABox& aabb, const zeus::CPlane& plane, int type)
{
zeus::CVector3f closePoint = aabb.closestPointAlongVector(xb0_viewPlane.normal());
zeus::CVector3f farPoint = aabb.furthestPointAlongVector(xb0_viewPlane.normal());
float closeDist = xb0_viewPlane.pointToPlaneDist(closePoint);
float farDist = xb0_viewPlane.pointToPlaneDist(farPoint);
if (closeDist >= 0.f || farDist >= 0.f)
{
bool zOnly = plane.normal().isZero();
bool invert;
if (zOnly)
invert = CGraphics::g_ViewMatrix.origin.z >= plane.d;
else
invert = plane.pointToPlaneDist(CGraphics::g_ViewMatrix.origin) >= 0.f;
Buckets::InsertPlaneObject(closeDist, farDist, aabb, invert, plane, zOnly, EDrawableType(type + 2), obj);
}
}
void CBooRenderer::AddDrawable(const void* obj, const zeus::CVector3f& pos, const zeus::CAABox& aabb,
int mode, EDrawableSorting sorting)
{
if (sorting == EDrawableSorting::UnsortedCallback)
xa8_drawableCallback(obj, xac_callbackContext, mode);
else
Buckets::Insert(pos, aabb, EDrawableType(mode + 2), obj, xb0_viewPlane, 0);
}
void CBooRenderer::SetDrawableCallback(TDrawableCallback cb, const void* ctx)
{
xa8_drawableCallback = cb;
xac_callbackContext = ctx;
}
void CBooRenderer::SetWorldViewpoint(const zeus::CTransform& xf)
{
CGraphics::SetViewPointMatrix(xf);
xb0_viewPlane.vec = xf.basis[1];
xb0_viewPlane.d = xf.basis[1].dot(xf.origin);
}
void CBooRenderer::SetPerspective(float fovy, float width, float height, float znear, float zfar)
{
CGraphics::SetPerspective(fovy, width / height, znear, zfar);
}
void CBooRenderer::SetPerspective(float fovy, float aspect, float znear, float zfar)
{
CGraphics::SetPerspective(fovy, aspect, znear, zfar);
}
std::pair<zeus::CVector2f, zeus::CVector2f>
CBooRenderer::SetViewportOrtho(bool centered, float znear, float zfar)
{
float left = centered ? g_Viewport.x0_left - g_Viewport.x10_halfWidth : 0.f;
float bottom = centered ? g_Viewport.x4_top - g_Viewport.x14_halfHeight : 0.f;
float top = centered ? g_Viewport.x0_left + g_Viewport.x14_halfHeight : g_Viewport.xc_height;
float right = centered ? g_Viewport.x4_top + g_Viewport.x10_halfWidth : g_Viewport.x8_width;
CGraphics::SetOrtho(left, right, top, bottom, znear, zfar);
CGraphics::SetViewPointMatrix(zeus::CTransform::Identity());
CGraphics::SetModelMatrix(zeus::CTransform::Identity());
return {{left, bottom}, {right, top}};
}
void CBooRenderer::SetClippingPlanes(const zeus::CFrustum& frustum)
{
x44_frustumPlanes = frustum;
}
void CBooRenderer::SetViewport(int l, int b, int w, int h)
{
CGraphics::SetViewport(l, b, w, h);
CGraphics::SetScissor(l, b, w, h);
}
void CBooRenderer::SetDebugOption(EDebugOption, int)
{
}
void CBooRenderer::BeginScene()
{
CGraphics::SetViewport(0, 0, g_Viewport.x8_width, g_Viewport.xc_height);
CGraphics::SetPerspective(75.f, CGraphics::g_ProjAspect, 1.f, 4096.f);
CGraphics::SetModelMatrix(zeus::CTransform::Identity());
#if 0
if (x310_phazonSuitMaskCountdown != 0)
{
--x310_phazonSuitMaskCountdown;
if (x310_phazonSuitMaskCountdown == 0)
x314_phazonSuitMask.reset();
}
#endif
x318_27_currentRGBA6 = x318_26_requestRGBA6;
if (!x318_31_persistRGBA6)
x318_26_requestRGBA6 = false;
//GXSetPixelFmt(x318_27_currentRGBA6);
CGraphics::BeginScene();
m_nextFogVolumePlaneShader = m_fogVolumePlaneShaders.begin();
m_nextFogVolumeFilter = m_fogVolumeFilters.begin();
}
void CBooRenderer::EndScene()
{
CGraphics::EndScene();
if (x2dc_reflectionAge >= 2)
{
// Delete reflection tex x14c_
}
else
{
++x2dc_reflectionAge;
}
}
void CBooRenderer::SetAmbientColor(const zeus::CColor& color)
{
CGraphics::SetAmbientColor(color);
}
void CBooRenderer::DrawString(const char*, int, int)
{
}
u32 CBooRenderer::GetFPS()
{
return 0;
}
void CBooRenderer::CacheReflection(TReflectionCallback cb, void* ctx, bool clearAfter)
{
if (!x318_24_refectionDirty)
return;
x318_24_refectionDirty = false;
x2dc_reflectionAge = 0;
BindReflectionDrawTarget();
SViewport backupVp = g_Viewport;
SetViewport(0, 0, 256, 256);
CGraphics::g_BooMainCommandQueue->clearTarget();
cb(ctx, CBooModel::g_ReflectViewPos);
boo::SWindowRect rect(0, 0, 256, 256);
CGraphics::g_BooMainCommandQueue->resolveBindTexture(x14c_reflectionTex, rect, false, 0, true, false);
BindMainDrawTarget();
SetViewport(backupVp.x0_left, backupVp.x4_top, backupVp.x8_width, backupVp.xc_height);
}
void CBooRenderer::DrawSpaceWarp(const zeus::CVector3f& pt, float strength)
{
m_spaceWarpFilter.setStrength(strength);
m_spaceWarpFilter.draw(pt);
}
void CBooRenderer::DrawThermalModel(const CModel& model, const zeus::CColor& mulCol, const zeus::CColor& addCol)
{
CModelFlags flags;
flags.m_extendedShader = EExtendedShader::Thermal;
flags.x4_color = mulCol;
flags.addColor = addCol;
model.UpdateLastFrame();
model.Draw(flags);
}
void CBooRenderer::DrawXRayOutline(const zeus::CAABox& aabb)
{
CModelFlags flags;
flags.m_extendedShader = EExtendedShader::ForcedAlpha;
for (CAreaListItem& item : x1c_areaListItems)
{
if (item.x4_octTree)
{
std::vector<u32> bitmap;
item.x4_octTree->FindOverlappingModels(bitmap, aabb);
for (u32 c=0 ; c<item.x4_octTree->x14_bitmapWordCount ; ++c)
{
for (u32 b=0 ; b<32 ; ++b)
{
if (bitmap[c] & (1 << b))
{
CBooModel* model = item.x10_models[c * 32 + b];
model->UpdateUniformData(flags, nullptr, nullptr);
const CBooSurface* surf = model->x38_firstUnsortedSurface;
while (surf)
{
if (surf->GetBounds().intersects(aabb))
model->DrawSurface(*surf, flags);
surf = surf->m_next;
}
}
}
}
}
}
}
void CBooRenderer::SetWireframeFlags(int)
{
}
void CBooRenderer::SetWorldFog(ERglFogMode mode, float startz, float endz, const zeus::CColor& color)
{
if (x318_28_disableFog)
mode = ERglFogMode::None;
CGraphics::SetFog(mode, startz, endz, color);
}
void CBooRenderer::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 CBooRenderer::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 CBooRenderer::SetThermalColdScale(float scale)
{
x2f8_thermColdScale = zeus::clamp(0.f, scale, 1.f);
}
void CBooRenderer::DoThermalBlendCold()
{
zeus::CColor a = zeus::CColor::lerp(x2f4_thermColor, zeus::CColor::skWhite, x2f8_thermColdScale);
m_thermColdFilter.setColorA(a);
float bFac = 0.f;
float bAlpha = 1.f;
if (x2f8_thermColdScale < 0.5f)
{
bAlpha = x2f8_thermColdScale * 2.f;
bFac = (1.f - bAlpha) / 8.f;
}
zeus::CColor b{bFac, bFac, bFac, bAlpha};
m_thermColdFilter.setColorB(b);
zeus::CColor c = zeus::CColor::lerp(zeus::CColor::skBlack, zeus::CColor::skWhite,
zeus::clamp(0.f, (x2f8_thermColdScale - 0.25f) * 4.f / 3.f, 1.f));
m_thermColdFilter.setColorC(c);
m_thermColdFilter.setScale(x2f8_thermColdScale);
m_thermColdFilter.setShift(x2a8_thermalRand.Next() % 32);
m_thermColdFilter.draw();
CElementGen::SetMoveRedToAlphaBuffer(true);
CDecal::SetMoveRedToAlphaBuffer(true);
}
void CBooRenderer::DoThermalBlendHot()
{
m_thermHotFilter->draw();
}
u32 CBooRenderer::GetStaticWorldDataSize()
{
return 0;
}
void CBooRenderer::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 CBooRenderer::SetWorldLightMultiplyColor(const zeus::CColor& color)
{
CGraphics::g_ColorRegs[1] = color;
}
void CBooRenderer::SetWorldLightFadeLevel(float level)
{
x2fc_tevReg1Color = zeus::CColor(level, level, level, 1.f);
}
void CBooRenderer::ReallyDrawPhazonSuitIndirectEffect(const zeus::CColor& vertColor, /*const CTexture& maskTex,*/
const CTexture& indTex, const zeus::CColor& modColor,
float scale, float offX, float offY)
{
float qScale = scale / 8.f; // Adjustment for URDE
m_phazonSuitFilter.draw(modColor, scale, offX * qScale, offY * qScale);
}
void CBooRenderer::ReallyDrawPhazonSuitEffect(const zeus::CColor& modColor /*, const CTexture& maskTex*/)
{
m_phazonSuitFilter.draw(modColor, 0.f, 0.f, 0.f);
}
void CBooRenderer::DoPhazonSuitIndirectAlphaBlur(float blurRadius /*, float f2*/, const TLockedToken<CTexture>& indTex)
{
m_phazonSuitFilter.drawBlurPasses(blurRadius, indTex.IsLoaded() ? indTex.GetObj() : nullptr);
}
void CBooRenderer::DrawPhazonSuitIndirectEffect(const zeus::CColor& nonIndirectMod, const TLockedToken<CTexture>& indTex,
const zeus::CColor& indirectMod, float blurRadius,
float scale, float offX, float offY)
{
/* Indirect background already in binding 0 */
/* Resolve alpha channel of just-drawn phazon suit into binding 1 */
SClipScreenRect rect(g_Viewport);
CGraphics::ResolveSpareTexture(rect, 1);
/* Perform blur filter and resolve into binding 2 */
DoPhazonSuitIndirectAlphaBlur(blurRadius, indTex);
/* Draw effect; subtracting binding 1 from binding 2 for the filter 'cutout' */
if (indTex && indTex.IsLoaded())
ReallyDrawPhazonSuitIndirectEffect(zeus::CColor::skWhite, *indTex, indirectMod, scale, offX, offY);
else
ReallyDrawPhazonSuitEffect(nonIndirectMod);
}
void CBooRenderer::AllocatePhazonSuitMaskTexture()
{
x318_26_requestRGBA6 = true;
x310_phazonSuitMaskCountdown = 2;
}
void CBooRenderer::FindOverlappingWorldModels(std::vector<u32>& modelBits, const zeus::CAABox& aabb) const
{
u32 bitmapWords = 0;
for (const CAreaListItem& item : x1c_areaListItems)
if (item.x4_octTree)
bitmapWords += item.x4_octTree->x14_bitmapWordCount;
if (!bitmapWords)
{
modelBits.clear();
return;
}
modelBits.clear();
modelBits.resize(bitmapWords);
u32 curWord = 0;
for (const CAreaListItem& item : x1c_areaListItems)
{
if (!item.x4_octTree)
continue;
item.x4_octTree->FindOverlappingModels(modelBits.data() + curWord, aabb);
u32 wordModel = 0;
for (int i=0 ; i<item.x4_octTree->x14_bitmapWordCount ; ++i, wordModel += 32)
{
u32& word = modelBits[curWord + i];
if (!word)
continue;
for (int j=0 ; j<32 ; ++j)
{
if ((1 << j) & word)
{
const zeus::CAABox& modelAABB = item.x10_models[wordModel + j]->x20_aabb;
if (!modelAABB.intersects(aabb))
word &= ~(1 << j);
}
}
}
curWord += item.x4_octTree->x14_bitmapWordCount;
}
}
int CBooRenderer::DrawOverlappingWorldModelIDs(int alphaVal, const std::vector<u32>& modelBits,
const zeus::CAABox& aabb) const
{
SetupRendererStates();
const_cast<CBooRenderer&>(*this).UpdateAreaUniforms(-1);
CModelFlags flags;
flags.m_extendedShader = EExtendedShader::SolidColor; // Do solid color draw
u32 curWord = 0;
for (const CAreaListItem& item : x1c_areaListItems)
{
if (!item.x4_octTree)
continue;
u32 wordModel = 0;
for (int i=0 ; i<item.x4_octTree->x14_bitmapWordCount ; ++i, wordModel += 32)
{
const u32& word = modelBits[curWord + i];
if (!word)
continue;
for (int j=0 ; j<32 ; ++j)
{
if ((1 << j) & word)
{
if (alphaVal > 255)
return alphaVal;
flags.x4_color.a = alphaVal / 255.f;
const CBooModel& model = *item.x10_models[wordModel + j];
const_cast<CBooModel&>(model).VerifyCurrentShader(0);
for (const CBooSurface* surf = model.x38_firstUnsortedSurface; surf; surf = surf->m_next)
if (surf->GetBounds().intersects(aabb))
model.DrawSurface(*surf, flags);
alphaVal += 4;
}
}
}
curWord += item.x4_octTree->x14_bitmapWordCount;
}
return alphaVal;
}
void CBooRenderer::DrawOverlappingWorldModelShadows(int alphaVal, const std::vector<u32>& modelBits,
const zeus::CAABox& aabb, float alpha) const
{
CModelFlags flags;
flags.x4_color.a = alpha;
flags.m_extendedShader = EExtendedShader::MorphBallShadow; // Do shadow draw
u32 curWord = 0;
for (const CAreaListItem& item : x1c_areaListItems)
{
if (!item.x4_octTree)
continue;
u32 wordModel = 0;
for (int i=0 ; i<item.x4_octTree->x14_bitmapWordCount ; ++i, wordModel += 32)
{
const u32& word = modelBits[curWord + i];
if (!word)
continue;
for (int j=0 ; j<32 ; ++j)
{
if ((1 << j) & word)
{
if (alphaVal > 255)
return;
flags.x4_color.r = alphaVal / 255.f;
const CBooModel& model = *item.x10_models[wordModel + j];
const_cast<CBooModel&>(model).VerifyCurrentShader(0);
for (const CBooSurface* surf = model.x38_firstUnsortedSurface; surf; surf = surf->m_next)
if (surf->GetBounds().intersects(aabb))
model.DrawSurface(*surf, flags);
alphaVal += 4;
}
}
}
curWord += item.x4_octTree->x14_bitmapWordCount;
}
}
}
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