mirror of https://github.com/AxioDL/metaforce.git
567 lines
15 KiB
C++
567 lines
15 KiB
C++
#if _WIN32
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#include <D3Dcommon.h>
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#endif
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#include "GameGlobalObjects.hpp"
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#include "CBooRenderer.hpp"
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#include "CTexture.hpp"
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#include "CModel.hpp"
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#include "Particle/CParticleGen.hpp"
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#include "CMetroidModelInstance.hpp"
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#define MIRROR_RAMP_RES 32
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#define FOGVOL_RAMP_RES 256
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#define SPHERE_RAMP_RES 32
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namespace urde
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{
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static rstl::reserved_vector<CDrawable, 50> sDataHolder;
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static rstl::reserved_vector<rstl::reserved_vector<CDrawable*, 128>, 50> sBucketsHolder;
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static rstl::reserved_vector<CDrawablePlaneObject, 8> sPlaneObjectDataHolder;
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static rstl::reserved_vector<u16, 8> sPlaneObjectBucketHolder;
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rstl::reserved_vector<u16, 50> Buckets::sBucketIndex;
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rstl::reserved_vector<CDrawable, 50>* Buckets::sData = nullptr;
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rstl::reserved_vector<rstl::reserved_vector<CDrawable*, 128>, 50>* Buckets::sBuckets = nullptr;
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rstl::reserved_vector<CDrawablePlaneObject, 8>* Buckets::sPlaneObjectData = nullptr;
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rstl::reserved_vector<u16, 8>* Buckets::sPlaneObjectBucket = nullptr;
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const float Buckets::skWorstMinMaxDistance[2] = {99999.f, -99999.f};
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float Buckets::sMinMaxDistance[2];
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void Buckets::Clear()
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{
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sData->clear();
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sBucketIndex.clear();
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sPlaneObjectData->clear();
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sPlaneObjectBucket->clear();
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for (rstl::reserved_vector<CDrawable*, 128>& bucket : *sBuckets)
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bucket.clear();
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sMinMaxDistance[0] = skWorstMinMaxDistance[0];
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sMinMaxDistance[1] = skWorstMinMaxDistance[1];
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}
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void Buckets::Sort()
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{
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float delta = std::max(1.f, sMinMaxDistance[1] - sMinMaxDistance[0]);
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sPlaneObjectBucket->resize(8);
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std::sort(sPlaneObjectBucket->begin(), sPlaneObjectBucket->end(),
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[](u16 a, u16 b) -> bool
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{
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return (*sPlaneObjectData)[a].GetDistance() >= (*sPlaneObjectData)[b].GetDistance();
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});
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u32 precision = 50 / (8 + 1);
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float pitch = 1.f / (delta / float(precision - 2));
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int accum = 0;
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for (u16 idx : *sPlaneObjectBucket)
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{
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++accum;
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CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[idx];
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planeObj.x24_targetBucket = precision * accum;
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}
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for (CDrawable& drawable : *sData)
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{
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int slot;
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if (sPlaneObjectBucket->empty())
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{
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slot = zeus::clamp(1, int((drawable.GetDistance() - sMinMaxDistance[0]) * pitch), 49);
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}
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else
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{
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/* TODO: Planar sort distribution */
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}
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if (slot == -1)
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slot = 49;
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(*sBuckets)[slot].push_back(&drawable);
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}
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int bucketIdx = sBuckets->size();
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for (auto it = sBuckets->rbegin() ; it != sBuckets->rend() ; ++it)
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{
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--bucketIdx;
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sBucketIndex.push_back(bucketIdx);
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rstl::reserved_vector<CDrawable*, 128>& bucket = *it;
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if (bucket.size())
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{
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std::sort(bucket.begin(), bucket.end(),
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[](CDrawable* a, CDrawable* b) -> bool
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{
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return a->GetDistance() >= b->GetDistance();
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});
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}
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}
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for (auto it = sPlaneObjectBucket->rbegin() ; it != sPlaneObjectBucket->rend() ; ++it)
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{
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CDrawablePlaneObject& planeObj = (*sPlaneObjectData)[*it];
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rstl::reserved_vector<CDrawable*, 128>& bucket = (*sBuckets)[planeObj.x24_targetBucket];
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bucket.push_back(&planeObj);
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}
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}
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void Buckets::InsertPlaneObject(float dist, float something, const zeus::CAABox& aabb, bool b1,
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const zeus::CPlane& plane, bool b2, EDrawableType dtype, const void* data)
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{
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sPlaneObjectData->push_back(CDrawablePlaneObject(dtype, dist, something, aabb, b1, plane, b2, data));
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}
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void Buckets::Insert(const zeus::CVector3f& pos, const zeus::CAABox& aabb, EDrawableType dtype,
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const void* data, const zeus::CPlane& plane, u16 extraSort)
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{
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float dist = plane.pointToPlaneDist(pos);
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sData->push_back(CDrawable(dtype, extraSort, dist, aabb, data));
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if (sMinMaxDistance[0] > dist)
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sMinMaxDistance[0] = dist;
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if (sMinMaxDistance[1] < dist)
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sMinMaxDistance[1] = dist;
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}
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void Buckets::Shutdown()
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{
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sData = nullptr;
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sBuckets = nullptr;
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sPlaneObjectData = nullptr;
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sPlaneObjectBucket = nullptr;
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}
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void Buckets::Init()
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{
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sData = &sDataHolder;
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sBuckets = &sBucketsHolder;
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sBuckets->resize(50);
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sPlaneObjectData = &sPlaneObjectDataHolder;
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sPlaneObjectBucket = &sPlaneObjectBucketHolder;
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sMinMaxDistance[0] = skWorstMinMaxDistance[0];
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sMinMaxDistance[1] = skWorstMinMaxDistance[1];
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}
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CBooRenderer::CAreaListItem::CAreaListItem
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(const std::vector<CMetroidModelInstance>* geom, const CAreaOctTree* octTree,
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std::vector<CBooModel*>&& models, int unk)
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: x0_geometry(geom), x4_octTree(octTree), x10_models(std::move(models)), x18_unk(unk) {}
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CBooRenderer::CAreaListItem::~CAreaListItem() {}
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void CBooRenderer::RenderBucketItems(const std::vector<CLight>& lights)
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{
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for (u16 idx : Buckets::sBucketIndex)
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{
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rstl::reserved_vector<CDrawable*, 128>& bucket = (*Buckets::sBuckets)[idx];
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for (CDrawable* drawable : bucket)
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{
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switch (drawable->GetType())
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{
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case EDrawableType::Particle:
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{
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static_cast<CParticleGen*>((void*)drawable->GetData())->Render();
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break;
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}
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case EDrawableType::Surface:
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{
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CBooSurface* surf = static_cast<CBooSurface*>((void*)drawable->GetData());
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CBooModel* model = surf->m_parent;
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if (model)
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{
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model->ActivateLights(lights);
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model->DrawSurface(*surf, CModelFlags{});
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}
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break;
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}
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default:
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{
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if (xa8_renderCallback)
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{
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xa8_renderCallback(drawable->GetData(), xac_callbackContext,
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int(drawable->GetType()) - 2);
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}
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break;
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}
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}
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}
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}
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}
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void CBooRenderer::GenerateMirrorRampTex(boo::IGraphicsDataFactory::Context& ctx)
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{
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u8 data[MIRROR_RAMP_RES][MIRROR_RAMP_RES][4] = {};
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float halfRes = MIRROR_RAMP_RES / 2.f;
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for (int y=0 ; y<MIRROR_RAMP_RES ; ++y)
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{
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for (int x=0 ; x<MIRROR_RAMP_RES ; ++x)
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{
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zeus::CVector2f vec((x - halfRes) / halfRes, (y - halfRes) / halfRes);
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if (vec.magnitude() <= halfRes && vec.canBeNormalized())
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vec.normalize();
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data[y][x][0] = zeus::clamp(0.f, vec.x, 1.f) * 255;
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data[y][x][1] = zeus::clamp(0.f, vec.y, 1.f) * 255;
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}
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}
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x150_mirrorRamp = ctx.newStaticTexture(MIRROR_RAMP_RES, MIRROR_RAMP_RES, 1,
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boo::TextureFormat::RGBA8, data[0],
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MIRROR_RAMP_RES * MIRROR_RAMP_RES * 4);
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}
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void CBooRenderer::GenerateFogVolumeRampTex(boo::IGraphicsDataFactory::Context& ctx)
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{
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u8 data[FOGVOL_RAMP_RES][FOGVOL_RAMP_RES] = {};
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for (int y=0 ; y<FOGVOL_RAMP_RES ; ++y)
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{
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for (int x=0 ; x<FOGVOL_RAMP_RES ; ++x)
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{
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int tmp = y << 16 | x << 8 | 0x7f;
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double a = zeus::clamp(0.0, (-150.0 / (tmp * 749.7998 - 750.0) - 0.2) * 3.0 / 749.7998, 1.0);
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data[y][x] = (a * a + a) / 2.f * 255;
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}
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}
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x1b8_fogVolumeRamp = ctx.newStaticTexture(FOGVOL_RAMP_RES, FOGVOL_RAMP_RES, 1,
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boo::TextureFormat::I8, data[0],
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FOGVOL_RAMP_RES * FOGVOL_RAMP_RES);
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}
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void CBooRenderer::GenerateSphereRampTex(boo::IGraphicsDataFactory::Context& ctx)
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{
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u8 data[SPHERE_RAMP_RES][SPHERE_RAMP_RES] = {};
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float halfRes = SPHERE_RAMP_RES / 2.f;
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for (int y=0 ; y<SPHERE_RAMP_RES ; ++y)
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{
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for (int x=0 ; x<SPHERE_RAMP_RES ; ++x)
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{
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zeus::CVector2f vec((x - halfRes) / halfRes, (y - halfRes) / halfRes);
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data[y][x] = zeus::clamp(0.f, vec.canBeNormalized() ? vec.magnitude() : 0.f, 1.f) * 255;
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}
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}
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x220_sphereRamp = ctx.newStaticTexture(SPHERE_RAMP_RES, SPHERE_RAMP_RES, 1,
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boo::TextureFormat::I8, data[0],
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SPHERE_RAMP_RES * SPHERE_RAMP_RES);
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}
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void CBooRenderer::LoadThermoPalette(boo::IGraphicsDataFactory::Context& ctx)
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{
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m_thermoPaletteTex = xc_store.GetObj("TXTR_ThermoPalette");
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CTexture* thermoTexObj = m_thermoPaletteTex.GetObj();
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if (thermoTexObj)
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x288_thermoPalette = thermoTexObj->GetBooTexture();
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}
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CBooRenderer::CBooRenderer(IObjectStore& store, IFactory& resFac)
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: x8_factory(resFac), xc_store(store), x2a8_thermalRand(20)
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{
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xee_24_ = true;
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m_gfxToken = CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx) -> bool
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{
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GenerateMirrorRampTex(ctx);
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GenerateFogVolumeRampTex(ctx);
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GenerateSphereRampTex(ctx);
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LoadThermoPalette(ctx);
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return true;
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});
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Buckets::Init();
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}
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void CBooRenderer::AddWorldSurfaces(CBooModel& model)
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{
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CBooSurface* surf = model.x3c_firstSortedSurface;
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while (surf)
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{
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const CBooModel::MaterialSet::Material& mat = model.GetMaterialByIndex(surf->selfIdx);
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zeus::CAABox aabb = surf->GetBounds();
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zeus::CVector3f pt = aabb.closestPointAlongVector(xb0_.vec);
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Buckets::Insert(pt, aabb, EDrawableType::Surface, surf, xb0_,
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mat.heclIr.m_blendDst != boo::BlendFactor::Zero);
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surf = surf->m_next;
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}
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}
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std::list<CBooRenderer::CAreaListItem>::iterator
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CBooRenderer::FindStaticGeometry(const std::vector<CMetroidModelInstance>* geometry)
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{
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return std::find_if(x1c_areaListItems.begin(), x1c_areaListItems.end(),
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[&](CAreaListItem& item) -> bool {return item.x0_geometry == geometry;});
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}
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void CBooRenderer::AddStaticGeometry(const std::vector<CMetroidModelInstance>* geometry,
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const CAreaOctTree* octTree, int unk)
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{
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auto search = FindStaticGeometry(geometry);
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if (search == x1c_areaListItems.end())
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{
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std::vector<CBooModel*> models;
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if (geometry->size())
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{
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models.reserve(geometry->size());
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for (const CMetroidModelInstance& inst : *geometry)
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models.push_back(inst.m_instance.get());
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}
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x1c_areaListItems.emplace_back(geometry, octTree, std::move(models), unk);
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}
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}
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void CBooRenderer::RemoveStaticGeometry(const std::vector<CMetroidModelInstance>* geometry)
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{
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auto search = FindStaticGeometry(geometry);
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if (search != x1c_areaListItems.end())
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x1c_areaListItems.erase(search);
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}
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void CBooRenderer::DrawUnsortedGeometry(const std::vector<CLight>&, int, unsigned int, unsigned int)
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{
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}
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void CBooRenderer::DrawSortedGeometry(const std::vector<CLight>&, int, unsigned int, unsigned int)
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{
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//SetupRendererStates();
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}
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void CBooRenderer::DrawStaticGeometry(const std::vector<CLight>&, int, unsigned int, unsigned int)
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{
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}
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void CBooRenderer::PostRenderFogs()
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{
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}
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void CBooRenderer::AddParticleGen(const CParticleGen& gen)
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{
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std::pair<zeus::CAABox, bool> bounds = gen.GetBounds();
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if (bounds.second)
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{
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zeus::CVector3f pt = bounds.first.closestPointAlongVector(xb0_.vec);
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Buckets::Insert(pt, bounds.first, EDrawableType::Particle, &gen, xb0_, 0);
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}
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}
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void CBooRenderer::AddPlaneObject(const void*, const zeus::CAABox&, const zeus::CPlane&, int)
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{
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}
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void CBooRenderer::AddDrawable(const void* obj, const zeus::CVector3f& pos, const zeus::CAABox& aabb, int mode, EDrawableSorting sorting)
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{
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if (sorting == EDrawableSorting::UnsortedCallback)
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xa8_renderCallback(obj, xac_callbackContext, mode);
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else
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Buckets::Insert(pos, aabb, EDrawableType(mode + 2), obj, xb0_, 0);
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}
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void CBooRenderer::SetDrawableCallback(TDrawableCallback&& cb, const void* ctx)
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{
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xa8_renderCallback = std::move(cb);
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xac_callbackContext = ctx;
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}
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void CBooRenderer::SetWorldViewpoint(const zeus::CTransform&)
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{
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}
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void CBooRenderer::SetPerspectiveFovScalar(float)
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{
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}
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void CBooRenderer::SetPerspective(float, float, float, float, float)
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{
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}
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void CBooRenderer::SetPerspective(float, float, float, float)
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{
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}
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void CBooRenderer::SetViewportOrtho(bool, float, float)
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{
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}
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void CBooRenderer::SetClippingPlanes(const zeus::CFrustum& frustum)
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{
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x44_frustumPlanes = frustum;
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}
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void CBooRenderer::SetViewport(int, int, int, int)
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{
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}
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void CBooRenderer::SetDepthReadWrite(bool, bool)
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{
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}
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void CBooRenderer::SetBlendMode_AdditiveAlpha()
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{
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}
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void CBooRenderer::SetBlendMode_AlphaBlended()
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{
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}
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void CBooRenderer::SetBlendMode_NoColorWrite()
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{
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}
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void CBooRenderer::SetBlendMode_ColorMultiply()
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{
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}
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void CBooRenderer::SetBlendMode_InvertDst()
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{
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}
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void CBooRenderer::SetBlendMode_InvertSrc()
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{
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}
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void CBooRenderer::SetBlendMode_Replace()
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{
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}
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void CBooRenderer::SetBlendMode_AdditiveDestColor()
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{
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}
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void CBooRenderer::SetDebugOption(EDebugOption, int)
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{
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}
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void CBooRenderer::BeginScene()
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{
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}
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void CBooRenderer::EndScene()
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{
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}
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void CBooRenderer::BeginPrimitive(EPrimitiveType, int)
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{
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}
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void CBooRenderer::BeginLines(int)
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{
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}
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void CBooRenderer::BeginLineStrip(int)
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{
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}
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void CBooRenderer::BeginTriangles(int)
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{
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}
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void CBooRenderer::BeginTriangleStrip(int)
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{
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}
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void CBooRenderer::BeginTriangleFan(int)
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{
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}
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void CBooRenderer::PrimVertex(const zeus::CVector3f&)
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{
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}
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void CBooRenderer::PrimNormal(const zeus::CVector3f&)
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{
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}
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void CBooRenderer::PrimColor(float, float, float, float)
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{
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}
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void CBooRenderer::PrimColor(const zeus::CColor&)
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{
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}
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void CBooRenderer::EndPrimitive()
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{
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}
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void CBooRenderer::SetAmbientColor(const zeus::CColor&)
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{
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}
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void CBooRenderer::SetStaticWorldAmbientColor(const zeus::CColor&)
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{
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}
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void CBooRenderer::DrawString(const char*, int, int)
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{
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}
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u32 CBooRenderer::GetFPS()
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{
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return 0;
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}
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void CBooRenderer::CacheReflection(TReflectionCallback, void*, bool)
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{
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}
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void CBooRenderer::DrawSpaceWarp(const zeus::CVector3f&, float)
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{
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}
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void CBooRenderer::DrawThermalModel(const CModel&, const zeus::CColor&, const zeus::CColor&, const float*, const float*)
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{
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}
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void CBooRenderer::DrawXRayOutline(const CModel&, const float*, const float*)
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{
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}
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void CBooRenderer::SetWireframeFlags(int)
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{
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}
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void CBooRenderer::SetWorldFog(ERglFogMode, float, float, const zeus::CColor&)
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{
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}
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void CBooRenderer::RenderFogVolume(const zeus::CColor&, const zeus::CAABox&, const TLockedToken<CModel>*, const CSkinnedModel*)
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{
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}
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void CBooRenderer::SetThermal(bool, float, const zeus::CColor&)
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{
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}
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void CBooRenderer::SetThermalColdScale(float scale)
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{
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x2f8_thermColdScale = zeus::clamp(0.f, scale, 1.f);
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m_thermColdFilter.setScale(x2f8_thermColdScale);
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}
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void CBooRenderer::DoThermalBlendCold()
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{
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zeus::CColor a = zeus::CColor::lerp(x2f4_thermColor, zeus::CColor::skWhite, x2f8_thermColdScale);
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m_thermColdFilter.setColorA(a);
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float bFac = 0.f;
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float bAlpha = 1.f;
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if (x2f8_thermColdScale < 0.5f)
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{
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bAlpha = x2f8_thermColdScale * 2.f;
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bFac = (1.f - bAlpha) / 8.f;
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}
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zeus::CColor b{bFac, bFac, bFac, bAlpha};
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m_thermColdFilter.setColorB(b);
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zeus::CColor c = zeus::CColor::lerp(zeus::CColor::skBlack, zeus::CColor::skWhite,
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(x2f8_thermColdScale - 0.25f) * 4.f / 3.f);
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m_thermColdFilter.setColorC(c);
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m_thermColdFilter.setScale(x2f8_thermColdScale);
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m_thermColdFilter.setShift(x2a8_thermalRand.Next() % 32);
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m_thermColdFilter.draw();
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}
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void CBooRenderer::DoThermalBlendHot()
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{
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}
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u32 CBooRenderer::GetStaticWorldDataSize()
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{
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return 0;
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}
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}
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