Implement CActorLights::BuildAreaLightList

2017-04-09 20:57:00 -10:00 · 2017-04-09 20:57:00 -10:00 · 84578e9909
parent 9cd421888d
commit 84578e9909
20 changed files with 477 additions and 127 deletions
--- a/DataSpec/DNAMP1/MREA.cpp
+++ b/DataSpec/DNAMP1/MREA.cpp
@ -167,12 +167,15 @@ bool MREA::Extract(const SpecBase& dataSpec,
    rs.seek(secStart + head.secSizes[curSec++], athena::Begin);
    /* Dump VISI entities */
    auto visiPos = rs.position();
    if (head.secSizes[curSec] && rs.readUint32Big() == 'VISI')
    {
        athena::io::YAMLDocWriter visiWriter("VISI");
        uint32_t unkCount = 0;
        if (auto __vec = visiWriter.enterSubVector("entities"))
        {
-            rs.seek(18, athena::Current);
+            rs.seek(14, athena::Current);
            unkCount = rs.readUint32Big();
            uint32_t entityCount = rs.readUint32Big();
            rs.seek(8, athena::Current);
            for (int i=0 ; i<entityCount ; ++i)
@ -184,6 +187,14 @@ bool MREA::Extract(const SpecBase& dataSpec,
        hecl::ProjectPath visiMetadataPath(outPath.getParentPath(), _S("!visi.yaml"));
        athena::io::FileWriter visiMetadata(visiMetadataPath.getAbsolutePath());
        visiWriter.finish(&visiMetadata);
        if (unkCount)
        {
            rs.seek(visiPos, athena::Begin);
            auto bytes = rs.readUBytes(head.secSizes[curSec]);
            athena::io::FileWriter fw(std::string("/Users/jacko/Desktop/") + pakRouter.getBestEntryName(entry, false).c_str() + ".visi");
            fw.writeUBytes(bytes.get(), head.secSizes[curSec]);
        }
    }
    /* Origins to center of mass */
@ -398,15 +409,16 @@ bool MREA::PCCook(const hecl::ProjectPath& outPath,
    }
    /* Lights */
-    std::vector<atVec3f> lightsVisi;
+    std::vector<atVec3f> lightsVisi[2];
    {
-        int actualCount = 0;
+        int actualCounts[2] = {};
        for (const Light& l : lights)
            if (l.layer == 0 || l.layer == 1)
-                ++actualCount;
+                ++actualCounts[l.layer];
-        lightsVisi.reserve(actualCount);
+        lightsVisi[0].reserve(actualCounts[0]);
        lightsVisi[1].reserve(actualCounts[1]);
-        secs.emplace_back(12 + 65 * actualCount, 0);
+        secs.emplace_back(12 + 65 * (actualCounts[0] + actualCounts[1]), 0);
        athena::io::MemoryWriter w(secs.back().data(), secs.back().size());
        w.writeUint32Big(0xBABEDEAD);
@ -426,7 +438,7 @@ bool MREA::PCCook(const hecl::ProjectPath& outPath,
                    BabeDeadLight light = {};
                    WriteBabeDeadLightFromBlender(light, l);
                    light.write(w);
-                    lightsVisi.push_back(light.position);
+                    lightsVisi[l.layer].push_back(light.position);
                }
            }
        }
@ -495,8 +507,11 @@ bool MREA::PCCook(const hecl::ProjectPath& outPath,
                w.writeVec3fBig(ent.second.max);
            }
-            w.writeUint32Big(lightsVisi.size());
+            w.writeUint32Big(lightsVisi[0].size() + lightsVisi[1].size());
-            for (const auto& light : lightsVisi)
+            w.writeUint32Big(lightsVisi[1].size());
            for (const auto& light : lightsVisi[1])
                w.writeVec3fBig(light);
            for (const auto& light : lightsVisi[0])
                w.writeVec3fBig(light);
            w.close();
--- a/DataSpec/DNAMP1/ScriptObjects/Parameters.hpp
+++ b/DataSpec/DNAMP1/ScriptObjects/Parameters.hpp
@ -237,15 +237,15 @@ struct LightParameters : BigYAML
    Value<atUint32> shadowTesselation;
    Value<float>    unknown3;
    Value<float>    unknown4;
-    Value<atVec4f>  unknown5; // CColor
+    Value<atVec4f>  noLightsAmbient; // CColor
-    Value<bool>     unknown6;
+    Value<bool>     makeLights;
    Value<atUint32> worldLightingOptions;
    Value<atUint32> lightRecalculationOptions;
-    Value<atVec3f>  unknown7;
+    Value<atVec3f>  actorPosBias;
-    Value<atUint32> unknown8;
+    Value<atUint32> maxDynamicLights;
-    Value<atUint32> unknown9;
+    Value<atUint32> maxAreaLights;
-    Value<bool>     unknown10;
+    Value<bool>     ambientChannelOverflow;
-    Value<atUint32> unknown11;
+    Value<atUint32> layerIndex;
 };
 struct PatternedInfo : BigYAML
--- a/DataSpec/DNAMP1/Tweaks/CTweakPlayer.cpp
+++ b/DataSpec/DNAMP1/Tweaks/CTweakPlayer.cpp
@ -1071,8 +1071,8 @@ void CTweakPlayer::read(athena::io::YAMLDocReader& __dna_docin)
    x130_ = __dna_docin.readFloat("x130_");
    /* x134_ */
    x134_ = __dna_docin.readFloat("x134_");
-    /* x138_ */
+    /* x138_hudLagAmount */
-    x138_hudLagAmount = __dna_docin.readFloat("x138_");
+    x138_hudLagAmount = __dna_docin.readFloat("x138_hudLagAmount");
    /* x13c_ */
    x13c_ = __dna_docin.readFloat("x13c_");
    /* x140_ */
@ -1580,8 +1580,8 @@ void CTweakPlayer::CTweakPlayer::write(athena::io::YAMLDocWriter& __dna_docout)
    __dna_docout.writeFloat("x130_", x130_);
    /* x134_ */
    __dna_docout.writeFloat("x134_", x134_);
-    /* x138_ */
+    /* x138_hudLagAmount */
-    __dna_docout.writeFloat("x138_", x138_hudLagAmount);
+    __dna_docout.writeFloat("x138_hudLagAmount", x138_hudLagAmount);
    /* x13c_ */
    __dna_docout.writeFloat("x13c_", x13c_);
    /* x140_ */
--- a/Runtime/CStateManager.hpp
+++ b/Runtime/CStateManager.hpp
@ -261,6 +261,7 @@ public:
                  const std::weak_ptr<CWorldTransManager>&,
                  const std::weak_ptr<CWorldLayerState>&);
    u32 GetInputFrameIdx() const { return x8d4_inputFrameIdx; }
    bool RenderLast(TUniqueId);
    void AddDrawableActorPlane(const CActor& actor, const zeus::CPlane&, const zeus::CAABox& aabb) const;
    void AddDrawableActor(const CActor& actor, const zeus::CVector3f& vec, const zeus::CAABox& aabb) const;
--- a/Runtime/Character/CActorLights.cpp
+++ b/Runtime/Character/CActorLights.cpp
@ -1,21 +1,28 @@
 #include "CActorLights.hpp"
 #include "Graphics/CModel.hpp"
 #include "World/CGameArea.hpp"
 #include "CStateManager.hpp"
 #include "Collision/CGameCollision.hpp"
 namespace urde
 {
 s32 CActorLights::sFrameSchedulerCount = 0;
-CActorLights::CActorLights(u32 unk, const zeus::CVector3f& vec, int a, int b, bool c, int d, int e, float f1)
+CActorLights::CActorLights(u32 areaUpdateFramePeriod, const zeus::CVector3f& actorPosBias,
-: x2a8_(unk), x2ac_(vec), x2b8_b(b), x2bc_a(a), x2cc_(f1 * f1)
+                           int maxDynamicLights, int maxAreaLights, bool ambientChannelOverflow,
                           bool layer2, bool disableWorldLights, float positionUpdateThreshold)
 : x2a8_areaUpdateFramePeriod(areaUpdateFramePeriod), x2ac_actorPosBias(actorPosBias),
  x2b8_maxAreaLights(maxAreaLights), x2bc_maxDynamicLights(maxDynamicLights),
  x2cc_actorPositionDeltaUpdateThreshold(positionUpdateThreshold * positionUpdateThreshold)
 {
-    x298_24_ = true;
+    x298_24_dirty = true;
-    x298_25_ = true;
+    x298_25_castShadows = true;
-    x298_28_inArea = (!e && b > 0) ? true : false;
+    x298_28_inArea = (!disableWorldLights && maxAreaLights > 0) ? true : false;
-    x298_29_ = c;
+    x298_29_ambientChannelOverflow = ambientChannelOverflow;
-    x298_30_ = d;
+    x298_30_layer2 = layer2;
-    x298_31_ = e;
+    x298_31_disableWorldLights = disableWorldLights;
-    x299_24_ = true;
+    x299_24_inBrightLight = true;
    sFrameSchedulerCount++;
    sFrameSchedulerCount &= 7;
@ -24,9 +31,9 @@ CActorLights::CActorLights(u32 unk, const zeus::CVector3f& vec, int a, int b, bo
 void CActorLights::BuildConstantAmbientLighting()
 {
    x299_26_ = true;
-    x298_24_ = true;
+    x298_24_dirty = true;
-    x29c_ = -1;
+    x29c_shadowLightValIdx = -1;
-    x2a0_ = -1;
+    x2a0_shadowLightIdx = -1;
 }
 void CActorLights::BuildConstantAmbientLighting(const zeus::CColor& color)
@ -34,10 +41,10 @@ void CActorLights::BuildConstantAmbientLighting(const zeus::CColor& color)
    x299_26_ = false;
    x288_ambientColor = color;
    x294_aid = kInvalidAreaId;
-    x298_24_ = true;
+    x298_24_dirty = true;
-    x298_26_ = true;
+    x298_26_hasAreaLights = true;
-    x29c_ = -1;
+    x29c_shadowLightValIdx = -1;
-    x2a0_ = -1;
+    x2a0_shadowLightIdx = -1;
 }
 void CActorLights::BuildFakeLightList(const std::vector<CLight>& lights, const zeus::CColor& color)
@ -50,11 +57,299 @@ void CActorLights::BuildFaceLightList(CStateManager& mgr, const CGameArea& area,
 {
 }
-void CActorLights::BuildDynamicLightList(CStateManager& mgr, const zeus::CAABox& aabb)
+struct SLightValue
 {
    u32 x0_areaLightIdx;
    zeus::CColor x4_color;
    float x10_colorMag;
    float x14_accumulatedMag = 0.f;
    EPVSVisSetState x18_visiblity;
 };
 void CActorLights::MergeOverflowLight(CLight& out, zeus::CColor& color, const CLight& in, float colorMag)
 {
 }
-void CActorLights::MoveAmbienceToLights(const zeus::CVector3f& vec)
+void CActorLights::AddOverflowToLights(const CLight& light, const zeus::CColor& color, float mag)
 {
 }
 void CActorLights::MoveAmbienceToLights(const zeus::CColor& color)
 {
 }
 void CActorLights::MultiplyLightingLevels(float level)
 {
 }
 bool CActorLights::BuildAreaLightList(CStateManager& mgr, const CGameArea& area, const zeus::CAABox& aabb)
 {
    const std::vector<CWorldLight>& lightList = x298_30_layer2 ? area.GetPostConstructed()->x80_lightsB :
                                                                 area.GetPostConstructed()->x60_lightsA;
    const std::vector<CLight>& gfxLightList = x298_30_layer2 ? area.GetPostConstructed()->x90_gfxLightsB :
                                                               area.GetPostConstructed()->x70_gfxLightsA;
    float worldLightingLevel = area.GetPostConstructed()->x1128_worldLightingLevel;
    x298_26_hasAreaLights = lightList.size() != 0;
    if (!x298_26_hasAreaLights || !x298_28_inArea)
    {
        /* World lights disabled */
        if (x298_31_disableWorldLights)
            x2d4_worldLightingLevel = worldLightingLevel;
        x29c_shadowLightValIdx = -1;
        return true;
    }
    zeus::CVector3f vec;
    if (!x298_24_dirty && x294_aid == area.GetAreaId())
    {
        /* Early return if not ready for update */
        if (mgr.GetInputFrameIdx() - x2a4_lastUpdateFrame < x2a8_areaUpdateFramePeriod)
            return false;
        vec = aabb.center() + x2ac_actorPosBias;
        if (x2d4_worldLightingLevel == worldLightingLevel)
            if ((x2c0_lastActorPos - vec).magSquared() < x2cc_actorPositionDeltaUpdateThreshold)
                return false;
        x2c0_lastActorPos = vec;
    }
    else
    {
        if (x294_aid != area.GetAreaId())
            x2d8_brightLightIdx = -1;
        x2a4_lastUpdateFrame = sFrameSchedulerCount + mgr.GetInputFrameIdx();
        vec = aabb.center() + x2ac_actorPosBias;
        x2c0_lastActorPos = vec;
    }
    /* Reset lighting state */
    x2d4_worldLightingLevel = worldLightingLevel;
    x298_24_dirty = false;
    x294_aid = area.GetAreaId();
    x29c_shadowLightValIdx = -1;
    x288_ambientColor = zeus::CColor::skClear;
    /* Find candidate lights via PVS */
    bool use2ndLayer;
    if (x298_30_layer2)
    {
        if (const CPVSAreaSet* pvs = area.GetAreaVisSet())
            use2ndLayer = pvs->Has2ndLayerLights();
        else
            use2ndLayer = true;
    }
    else
    {
        use2ndLayer = false;
    }
    CPVSVisSet sets[3];
    sets[0].Reset(EPVSVisSetState::OutOfBounds);
    sets[1].Reset(EPVSVisSetState::OutOfBounds);
    sets[2].Reset(EPVSVisSetState::OutOfBounds);
    if (const CPVSAreaSet* pvs = area.GetAreaVisSet())
    {
        zeus::CVector3f localVec = area.GetInverseTransform() * vec;
        sets[0].SetTestPoint(pvs->GetVisOctree(), localVec);
        localVec = area.GetInverseTransform() * aabb.max;
        sets[1].SetTestPoint(pvs->GetVisOctree(), localVec);
        localVec = area.GetInverseTransform() * aabb.min;
        sets[2].SetTestPoint(pvs->GetVisOctree(), localVec);
    }
    std::vector<SLightValue> valList;
    valList.reserve(lightList.size());
    auto lightIt = lightList.begin();
    int lightIdx = 0;
    for (const CLight& light : gfxLightList)
    {
        if (light.GetType() == ELightType::LocalAmbient)
        {
            /* Take ambient here */
            x288_ambientColor = light.GetNormalIndependentLightingAtPoint(vec);
        }
        else
        {
            EPVSVisSetState visible = EPVSVisSetState::OutOfBounds;
            if (area.GetAreaVisSet())
            {
                if (lightIt->DoesCastShadows())
                {
                    u32 pvsIdx;
                    if (use2ndLayer)
                        pvsIdx = area.Get2ndPVSLightFeature(lightIdx);
                    else
                        pvsIdx = area.Get1stPVSLightFeature(lightIdx);
                    visible = sets[0].GetVisible(pvsIdx);
                    if (visible != EPVSVisSetState::OutOfBounds)
                        visible = std::max(visible, sets[1].GetVisible(pvsIdx));
                    if (visible != EPVSVisSetState::OutOfBounds)
                        visible = std::max(visible, sets[2].GetVisible(pvsIdx));
                }
            }
            if (visible != EPVSVisSetState::EndOfTree)
            {
                zeus::CSphere sphere(light.GetPosition(), light.GetRadius() * 2.f);
                if (aabb.intersects(sphere))
                {
                    /* Light passes as candidate */
                    valList.emplace_back();
                    SLightValue& value = valList.back();
                    value.x0_areaLightIdx = lightIdx;
                    value.x4_color = light.GetNormalIndependentLightingAtPoint(vec);
                    value.x4_color.a = 0.f;
                    value.x10_colorMag = value.x4_color.magnitude();
                    value.x18_visiblity = visible;
                }
            }
        }
        ++lightIt;
        ++lightIdx;
    }
    /* Sort lights most intense to least intense */
    std::sort(valList.begin(), valList.end(),
    [](const SLightValue& a, const SLightValue& b)
    {
        return a.x10_colorMag >= b.x10_colorMag;
    });
    if (x298_27_findShadowLight)
    {
        /* Accumulate magnitudes up to most intense for shadow dynamic range check */
        x288_ambientColor.a = 0.f;
        float mag = x288_ambientColor.magnitude();
        for (auto it = valList.rbegin() ; it != valList.rend() ; ++it)
        {
            mag += it->x10_colorMag;
            it->x14_accumulatedMag = mag;
        }
    }
    /* Ambient color for overflow area lights */
    zeus::CColor overflowAmbColor;
    /* Averaged light for overflow area lights */
    CLight overflowLight = CLight::BuildCustom(zeus::CVector3f::skZero, zeus::CVector3f::skZero, zeus::CColor::skBlack,
                                               0.f, 0.f, 0.f, 0.f, 0.f, 0.f);
    zeus::CColor overflowLightColor;
    float overflowMag = 0.f;
    /* Max significant lights */
    int maxAreaLights = !x298_29_ambientChannelOverflow ? x2b8_maxAreaLights - 1 : x2b8_maxAreaLights;
    x0_areaLights.clear();
    /* Filter for performing final light visibility test */
    CMaterialFilter filter =
    CMaterialFilter::MakeIncludeExclude(CMaterialList(EMaterialTypes::Solid),
                                        CMaterialList(EMaterialTypes::Projectile, EMaterialTypes::ProjectilePassthrough,
                                                      EMaterialTypes::SeeThrough));
    u32 mostSigLightIdx = 0;
    /* Narrowphase test candidates starting with most intense */
    for (int i=0 ; i<valList.size() ; ++i)
    {
        const SLightValue& value = valList[i];
        const CLight& light = gfxLightList[value.x0_areaLightIdx];
        if (x0_areaLights.size() < maxAreaLights)
        {
            /* Significant light */
            bool actorToLightContact = true;
            bool castShadows = lightList[value.x0_areaLightIdx].DoesCastShadows() && x298_25_castShadows;
            bool outOfBounds = area.GetAreaVisSet() && value.x18_visiblity == EPVSVisSetState::OutOfBounds;
            if (castShadows)
            {
                /* Process shadow cast */
                zeus::CVector3f delta = light.GetPosition() - vec;
                float deltaMag = delta.magnitude();
                bool useShadow = false;
                if (x298_27_findShadowLight && x29c_shadowLightValIdx == -1 && light.GetType() != ELightType::LocalAmbient &&
                    deltaMag > 2.f && !aabb.pointInside(light.GetPosition()))
                {
                    /* Perform shadow dynamic range check */
                    if (!x0_areaLights.size() ||
                        (x0_areaLights.size() == 1 && value.x10_colorMag / valList[mostSigLightIdx].x10_colorMag > 0.5f))
                    {
                        useShadow = value.x10_colorMag / value.x14_accumulatedMag >
                            x2d0_shadowDynamicRangeThreshold / (1.f + x2d0_shadowDynamicRangeThreshold);
                    }
                }
                if (useShadow)
                {
                    /* Note shadow light */
                    x29c_shadowLightValIdx = x0_areaLights.size();
                    x2a0_shadowLightIdx = value.x0_areaLightIdx;
                }
                else if (!outOfBounds)
                {
                    /* Note brightest light contact */
                    delta = delta * 1.f / deltaMag;
                    actorToLightContact = CGameCollision::TestLightRayIntersection(area, vec, delta, deltaMag, filter);
                    if (i == 0)
                    {
                        x299_24_inBrightLight = actorToLightContact;
                        if (x2d8_brightLightIdx != value.x0_areaLightIdx)
                        {
                            x2dc_overrideDist = actorToLightContact ? 0 : 15;
                            x2d8_brightLightIdx = value.x0_areaLightIdx;
                        }
                        x299_25_overrideFirstDist = false;
                        actorToLightContact = true;
                    }
                }
            }
            if (actorToLightContact)
            {
                /* Add to final list */
                if (x0_areaLights.size() == 0)
                    mostSigLightIdx = i;
                x0_areaLights.push_back(light);
            }
        }
        else
        {
            /* Overflow light */
            if (!x298_29_ambientChannelOverflow && value.x10_colorMag > 0.001f)
            {
                /* Average parameters into final light */
                MergeOverflowLight(overflowLight, overflowLightColor, light, value.x10_colorMag);
                overflowMag += value.x10_colorMag;
            }
            else
            {
                /* Average color into ambient channel */
                overflowAmbColor += value.x4_color;
            }
        }
    }
    /* Finalize overflow lights */
    if (!x298_29_ambientChannelOverflow)
        AddOverflowToLights(overflowLight, overflowLightColor, overflowMag);
    else
        MoveAmbienceToLights(overflowAmbColor);
    /* Clamp ambient color */
    if (x288_ambientColor.r > 1.f)
        x288_ambientColor.r = 1.f;
    if (x288_ambientColor.g > 1.f)
        x288_ambientColor.g = 1.f;
    if (x288_ambientColor.b > 1.f)
        x288_ambientColor.b = 1.f;
    x288_ambientColor.a = 1.f;
    /* Multiply down lighting with world fader level */
    if (worldLightingLevel < 1.f)
        MultiplyLightingLevels(worldLightingLevel);
    return true;
 }
 void CActorLights::BuildDynamicLightList(CStateManager& mgr, const zeus::CAABox& aabb)
 {
 }
@ -63,7 +358,7 @@ void CActorLights::ActivateLights(CBooModel& model) const
    std::vector<CLight> lights;
    if (x298_28_inArea)
    {
-        if (!x298_26_ || !x299_26_)
+        if (!x298_26_hasAreaLights || !x299_26_)
        {
            model.ActivateLights(lights);
            //return;
--- a/Runtime/Character/CActorLights.hpp
+++ b/Runtime/Character/CActorLights.hpp
@ -25,45 +25,53 @@ class CActorLights
    {
        struct
        {
-            bool x298_24_ : 1;
+            bool x298_24_dirty : 1;
-            bool x298_25_ : 1;
+            bool x298_25_castShadows : 1;
-            bool x298_26_ : 1;
+            bool x298_26_hasAreaLights : 1;
-            bool x298_27_ : 1;
+            bool x298_27_findShadowLight : 1;
            bool x298_28_inArea : 1;
-            bool x298_29_ : 1;
+            bool x298_29_ambientChannelOverflow : 1;
-            bool x298_30_ : 1;
+            bool x298_30_layer2 : 1;
-            bool x298_31_ : 1;
+            bool x298_31_disableWorldLights : 1;
-            bool x299_24_ : 1;
+            bool x299_24_inBrightLight : 1;
            bool x299_25_overrideFirstDist : 1;
            bool x299_26_ : 1;
        };
        u16 _dummy = 0;
    };
    bool x29a_ = false;
-    u32 x29c_ = -1;
+    u32 x29c_shadowLightValIdx = -1;
-    u32 x2a0_ = -1;
+    u32 x2a0_shadowLightIdx = -1;
-    u32 x2a4_ = 0;
+    u32 x2a4_lastUpdateFrame = 0;
-    u32 x2a8_;
+    u32 x2a8_areaUpdateFramePeriod;
-    zeus::CVector3f x2ac_;
+    zeus::CVector3f x2ac_actorPosBias;
-    int x2b8_b;
+    int x2b8_maxAreaLights;
-    int x2bc_a;
+    int x2bc_maxDynamicLights;
-    zeus::CVector3f x2c0_;
+    zeus::CVector3f x2c0_lastActorPos;
-    float x2cc_;
+    float x2cc_actorPositionDeltaUpdateThreshold;
-    float x2d0_ = 0.f;
+    float x2d0_shadowDynamicRangeThreshold = 0.f;
-    float x2d4_ = 1.f;
+    float x2d4_worldLightingLevel = 1.f;
-    u32 x2d8_ = -1;
+    u32 x2d8_brightLightIdx = -1;
    u32 x2dc_overrideDist = 0;
    static void MergeOverflowLight(CLight& out, zeus::CColor& color, const CLight& in, float colorMag);
    void AddOverflowToLights(const CLight& light, const zeus::CColor& color, float mag);
    void MoveAmbienceToLights(const zeus::CColor& color);
    void MultiplyLightingLevels(float level);
 public:
-    CActorLights(u32, const zeus::CVector3f& vec, int, int, bool, int, int, float);
+    CActorLights(u32 areaUpdateFramePeriod, const zeus::CVector3f& actorPosBias,
                 int maxDynamicLights, int maxAreaLights, bool ambientChannelOverflow,
                 bool layer2, bool disableWorldLights, float positionUpdateThreshold);
    void BuildConstantAmbientLighting();
    void BuildConstantAmbientLighting(const zeus::CColor& color);
    void BuildFakeLightList(const std::vector<CLight>& lights, const zeus::CColor& color);
    void BuildFaceLightList(CStateManager& mgr, const CGameArea& area, const zeus::CAABox& aabb);
    bool BuildAreaLightList(CStateManager& mgr, const CGameArea& area, const zeus::CAABox& aabb);
    void BuildDynamicLightList(CStateManager& mgr, const zeus::CAABox& aabb);
    void MoveAmbienceToLights(const zeus::CVector3f& vec);
    void ActivateLights(CBooModel& model) const;
    void SetCastShadows(bool v) { x298_25_castShadows = v; }
    void SetAmbientColor(const zeus::CColor& color) { x288_ambientColor = color; }
    const CLight& GetLight(u32 idx) const;
--- a/Runtime/Collision/CGameCollision.cpp
+++ b/Runtime/Collision/CGameCollision.cpp
@ -158,4 +158,14 @@ CGameCollision::RayWorldIntersection(const CStateManager& mgr, TUniqueId& idOut,
    else
        return staticRes;
 }
 bool CGameCollision::TestLightRayIntersection(const CGameArea& area, const zeus::CVector3f& pos,
                                              const zeus::CVector3f& dir, float mag, const CMaterialFilter& filter)
 {
    if (mag <= 0.f)
        mag = 100000.f;
    CAreaOctTree::Node node = area.GetPostConstructed()->x0_collision->GetRootNode();
    zeus::CLine line(pos, dir);
    return node.LineTest(line, filter, mag);
 }
 }
--- a/Runtime/Collision/CGameCollision.hpp
+++ b/Runtime/Collision/CGameCollision.hpp
@ -20,6 +20,7 @@ class CMaterialList;
 class CStateManager;
 class CPhysicsActor;
 class CMaterialFilter;
 class CGameArea;
 class CGameCollision
 {
@ -44,6 +45,8 @@ public:
    static CRayCastResult RayWorldIntersection(const CStateManager& mgr, TUniqueId& idOut, const zeus::CVector3f& pos,
                                               const zeus::CVector3f& dir, float mag, const CMaterialFilter& filter,
                                               const rstl::reserved_vector<TUniqueId, 1024>& nearList);
    static bool TestLightRayIntersection(const CGameArea& area, const zeus::CVector3f& pos,
                                         const zeus::CVector3f& dir, float mag, const CMaterialFilter& filter);
 };
 }
--- a/Runtime/Graphics/CLight.cpp
+++ b/Runtime/Graphics/CLight.cpp
@ -86,6 +86,15 @@ CLight::CLight(ELightType type,
    }
 }
 zeus::CColor CLight::GetNormalIndependentLightingAtPoint(const zeus::CVector3f& point) const
 {
    if (x1c_type == ELightType::LocalAmbient)
        return x18_color;
    float dist = std::max((x0_pos - point).magnitude(), FLT_EPSILON);
    return x18_color * (1.f / (x2c_distQ * dist * dist + x28_distL * dist + x24_distC));
 }
 CLight CLight::BuildDirectional(const zeus::CVector3f& dir, const zeus::CColor& color)
 {
    return CLight(ELightType::Directional, kDefaultPosition, dir, color, 180.f);
--- a/Runtime/Graphics/CLight.hpp
+++ b/Runtime/Graphics/CLight.hpp
@ -116,6 +116,7 @@ public:
    float GetIntensity() const;
    const zeus::CColor& GetColor() const { return x18_color; }
    zeus::CColor GetNormalIndependentLightingAtPoint(const zeus::CVector3f& point) const;
    static CLight BuildDirectional(const zeus::CVector3f& dir, const zeus::CColor& color);
    static CLight BuildSpot(const zeus::CVector3f& pos, const zeus::CVector3f& dir,
--- a/Runtime/Graphics/CPVSAreaSet.cpp
+++ b/Runtime/Graphics/CPVSAreaSet.cpp
@ -8,7 +8,7 @@ CPVSAreaSet::CPVSAreaSet(const u8* data, u32 len)
    CMemoryInStream r(data, len);
    x0_numFeatures = r.readUint32Big();
    x4_numLights = r.readUint32Big();
-    x8_c = r.readUint32Big();
+    x8_num2ndLights = r.readUint32Big();
    xc_numActors = r.readUint32Big();
    x10_leafSize = r.readUint32Big();
    x14_lightIndexCount = r.readUint32Big();
--- a/Runtime/Graphics/CPVSAreaSet.hpp
+++ b/Runtime/Graphics/CPVSAreaSet.hpp
@ -11,7 +11,7 @@ class CPVSAreaSet
 {
    u32 x0_numFeatures;
    u32 x4_numLights;
-    u32 x8_c;
+    u32 x8_num2ndLights;
    u32 xc_numActors;
    u32 x10_leafSize;
    u32 x14_lightIndexCount;
@ -23,8 +23,11 @@ public:
    CPVSAreaSet(const u8* data, u32 len);
    u32 GetNumFeatures() const { return x0_numFeatures; }
    u32 GetNumActors() const { return xc_numActors; }
    u32 Get1stLightIndex(u32 lightIdx) const { return x0_numFeatures + x8_num2ndLights + lightIdx; }
    u32 Get2ndLightIndex(u32 lightIdx) const { return x0_numFeatures + lightIdx; }
    bool Has2ndLayerLights() const { return x8_num2ndLights != 0; }
    u32 GetEntityIdByIndex(int idx) const { return x18_entityIndex[idx]; }
-    const CPVSVisOctree& GetVisOctree() { return x20_octree; }
+    const CPVSVisOctree& GetVisOctree() const { return x20_octree; }
 };
 }
--- a/Runtime/MP1/CSamusHud.cpp
+++ b/Runtime/MP1/CSamusHud.cpp
@ -759,7 +759,10 @@ void CSamusHud::UpdateHudDynamicLights(float dt, const CStateManager& mgr)
 {
    if (TCastToConstPtr<CFirstPersonCamera> fpCam = mgr.GetCameraManager()->GetCurrentCamera(mgr))
    {
-
+        zeus::CAABox camAABB(fpCam->GetTranslation() - 0.125f, fpCam->GetTranslation() + 0.125f);
        if (mgr.GetPlayer().GetAreaIdAlways() == kInvalidAreaId)
            return;
        //x33c_lights->
    }
 }
--- a/Runtime/World/CGameArea.hpp
+++ b/Runtime/World/CGameArea.hpp
@ -340,6 +340,11 @@ public:
    MREAHeader VerifyHeader() const;
    TUniqueId LookupPVSUniqueID(TUniqueId id) const;
    s16 LookupPVSID(TUniqueId id) const;
    const CPVSAreaSet* GetAreaVisSet() const { return GetPostConstructed()->xa0_pvs.get(); }
    u32 Get1stPVSLightFeature(u32 lightIdx) const
    { return GetAreaVisSet() ? GetAreaVisSet()->Get1stLightIndex(lightIdx) : -1; }
    u32 Get2ndPVSLightFeature(u32 lightIdx) const
    { return GetAreaVisSet() ? GetAreaVisSet()->Get2ndLightIndex(lightIdx) : -1; }
    const zeus::CTransform& GetTransform() const {return xc_transform;}
    const zeus::CTransform& GetInverseTransform() const {return x3c_invTransform;}
--- a/Runtime/World/CLightParameters.hpp
+++ b/Runtime/World/CLightParameters.hpp
@ -5,20 +5,6 @@
 #include "zeus/CColor.hpp"
 #include "Character/CActorLights.hpp"
 static inline u32 count_1bits(u32 x)
 {
    x = x - ((x >> 1) & 0x55555555);
    x = (x & 0x33333333) + ((x >> 2) & 0x33333333);
    x = x + (x >> 8);
    x = x + (x >> 16);
    return x & 0x0000003F;
 }
 static inline u32 count_0bits(u32 x)
 {
    return 32 - count_1bits(x);
 }
 namespace urde
 {
@ -34,16 +20,16 @@ public:
    {
        Zero,
        NormalWorld,
-        Two,
+        NoShadowCast,
        DisableWorld
    };
    enum class ELightRecalculationOptions
    {
-        Zero,
+        LargeFrameCount,
-        One,
+        EightFrames,
-        Two,
+        FourFrames,
-        Three
+        OneFrame
    };
 private:
@ -52,54 +38,59 @@ private:
    EShadowTesselation xc_shadowTesselation = EShadowTesselation::Zero;
    float x10_d = 0.f;
    float x14_e = 0.f;
-    zeus::CColor x18_f;
+    zeus::CColor x18_noLightsAmbient;
-    bool x1c_noLights = false;
+    bool x1c_makeLights = false;
-    bool x1d_h = false;
+    bool x1d_ambientChannelOverflow = false;
    EWorldLightingOptions x20_worldLightingOptions = EWorldLightingOptions::Zero;
-    ELightRecalculationOptions x24_lightRecalcOpts = ELightRecalculationOptions::One;
+    ELightRecalculationOptions x24_lightRecalcOpts = ELightRecalculationOptions::EightFrames;
-    s32 x28_k = 0;
+    s32 x28_layerIdx = 0;
-    zeus::CVector3f x2c_l;
+    zeus::CVector3f x2c_actorPosBias;
-    s32 x38_m = 4;
+    s32 x38_maxDynamicLights = 4;
-    s32 x3c_n = 4;
+    s32 x3c_maxAreaLights = 4;
 public:
    CLightParameters() = default;
-    CLightParameters(bool a, float b, EShadowTesselation shadowTess, float d, float e, const zeus::CColor& f,
+    CLightParameters(bool a, float b, EShadowTesselation shadowTess, float d, float e, const zeus::CColor& noLightsAmbient,
-                     bool noLights, EWorldLightingOptions lightingOpts, ELightRecalculationOptions lightRecalcOpts,
+                     bool makeLights, EWorldLightingOptions lightingOpts, ELightRecalculationOptions lightRecalcOpts,
-                     const zeus::CVector3f& l, s32 m, s32 n, bool h, s32 k)
+                     const zeus::CVector3f& actorPosBias, s32 maxDynamicLights, s32 maxAreaLights, bool ambChannelOverflow, s32 layerIdx)
-    : x4_a(a), x8_b(b), xc_shadowTesselation(shadowTess), x10_d(d), x14_e(e), x18_f(f), x1c_noLights(noLights), x1d_h(h),
+    : x4_a(a), x8_b(b), xc_shadowTesselation(shadowTess), x10_d(d), x14_e(e), x18_noLightsAmbient(noLightsAmbient), x1c_makeLights(makeLights),
-      x20_worldLightingOptions(lightingOpts), x24_lightRecalcOpts(lightRecalcOpts), x28_k(k), x2c_l(l), x38_m(m), x3c_n(n)
+      x1d_ambientChannelOverflow(ambChannelOverflow), x20_worldLightingOptions(lightingOpts), x24_lightRecalcOpts(lightRecalcOpts),
      x28_layerIdx(layerIdx), x2c_actorPosBias(actorPosBias), x38_maxDynamicLights(maxDynamicLights), x3c_maxAreaLights(maxAreaLights)
    {
-        if (x38_m > 4 || x38_m == -1)
+        if (x38_maxDynamicLights > 4 || x38_maxDynamicLights == -1)
-            x38_m = 4;
+            x38_maxDynamicLights = 4;
-        if (x3c_n > 4 || x3c_n == -1)
+        if (x3c_maxAreaLights > 4 || x3c_maxAreaLights == -1)
-            x3c_n = 4;
+            x3c_maxAreaLights = 4;
    }
    static CLightParameters None() {return CLightParameters();}
    static u32 GetFramesBetweenRecalculation(ELightRecalculationOptions opts)
    {
-        if (opts == ELightRecalculationOptions::Zero)
+        if (opts == ELightRecalculationOptions::LargeFrameCount)
            return 0x3FFFFFFF;
-        else if (opts == ELightRecalculationOptions::One)
+        else if (opts == ELightRecalculationOptions::EightFrames)
            return 8;
-        else if (opts == ELightRecalculationOptions::Two)
+        else if (opts == ELightRecalculationOptions::FourFrames)
            return 4;
-        else if (opts == ELightRecalculationOptions::Three)
+        else if (opts == ELightRecalculationOptions::OneFrame)
            return 1;
        return 8;
    }
    std::unique_ptr<CActorLights> MakeActorLights() const
    {
-        if (x1c_noLights == false)
+        if (!x1c_makeLights)
            return {};
        u32 updateFrames = GetFramesBetweenRecalculation(x24_lightRecalcOpts);
-        CActorLights* lights = new CActorLights(updateFrames, x2c_l, x1d_h, x3c_n, x38_m,
+        CActorLights* lights = new CActorLights(updateFrames, x2c_actorPosBias, x38_maxDynamicLights,
-                                                count_0bits(x28_k - 1) / 32,
+                                                x3c_maxAreaLights, x1d_ambientChannelOverflow, x28_layerIdx == 1,
-                                                count_0bits(u32(x20_worldLightingOptions) - 3) / 32,
+                                                x20_worldLightingOptions == EWorldLightingOptions::DisableWorld,
                                                0.1f);
-        return std::unique_ptr<CActorLights>(std::move(lights));
+        if (x20_worldLightingOptions == EWorldLightingOptions::NoShadowCast)
            lights->SetCastShadows(false);
        if (x3c_maxAreaLights == 0)
            lights->SetAmbientColor(x18_noLightsAmbient);
        return std::unique_ptr<CActorLights>(lights);
    }
 };
--- a/Runtime/World/CWorldLight.hpp
+++ b/Runtime/World/CWorldLight.hpp
@ -36,7 +36,7 @@ public:
    ELightType GetLightType() const;
    const zeus::CVector3f& GetDirection() const;
    const zeus::CVector3f& GetPosition() const;
-    bool DoesCastShadows() const;
+    bool DoesCastShadows() const { return x34_castShadows; }
    CLight GetAsCGraphicsLight() const;
 };
--- a/Runtime/World/ScriptLoader.cpp
+++ b/Runtime/World/ScriptLoader.cpp
@ -281,34 +281,35 @@ CLightParameters ScriptLoader::LoadLightParameters(CInputStream& in)
        float d = in.readFloatBig();
        float e = in.readFloatBig();
-        zeus::CColor col;
+        zeus::CColor noLightsAmbient;
-        col.readRGBABig(in);
+        noLightsAmbient.readRGBABig(in);
-        bool f = in.readBool();
+        bool makeLights = in.readBool();
        CLightParameters::EWorldLightingOptions lightOpts = CLightParameters::EWorldLightingOptions(in.readUint32Big());
        CLightParameters::ELightRecalculationOptions recalcOpts =
            CLightParameters::ELightRecalculationOptions(in.readUint32Big());
-        zeus::CVector3f vec;
+        zeus::CVector3f actorPosBias;
-        vec.readBig(in);
+        actorPosBias.readBig(in);
-        s32 w1 = -1;
+        s32 maxDynamicLights = -1;
-        s32 w2 = -1;
+        s32 maxAreaLights = -1;
        if (propCount >= 12)
        {
-            w1 = in.readUint32Big();
+            maxDynamicLights = in.readUint32Big();
-            w2 = in.readUint32Big();
+            maxAreaLights = in.readUint32Big();
        }
-        bool b1 = false;
+        bool ambientChannelOverflow = false;
        if (propCount >= 13)
-            b1 = in.readBool();
+            ambientChannelOverflow = in.readBool();
-        s32 w3 = 0;
+        s32 layerIdx = 0;
        if (propCount >= 14)
-            w3 = in.readUint32Big();
+            layerIdx = in.readUint32Big();
-        return CLightParameters(a, b, shadowTess, d, e, col, f, lightOpts, recalcOpts, vec, w1, w2, b1, w3);
+        return CLightParameters(a, b, shadowTess, d, e, noLightsAmbient, makeLights, lightOpts, recalcOpts, actorPosBias,
                                maxDynamicLights, maxAreaLights, ambientChannelOverflow, layerIdx);
    }
    return CLightParameters::None();
 }
--- a/visigen/VISIBuilder.cpp
+++ b/visigen/VISIBuilder.cpp
@ -306,6 +306,7 @@ std::vector<uint8_t> VISIBuilder::build(const zeus::CAABox& fullAabb,
                                        size_t modelCount,
                                        const std::vector<VISIRenderer::Entity>& entities,
                                        const std::vector<VISIRenderer::Light>& lights,
                                        size_t layer2LightCount,
                                        FPercent updatePercent)
 {
    Log.report(logvisor::Info, "Started!");
@ -338,7 +339,7 @@ std::vector<uint8_t> VISIBuilder::build(const zeus::CAABox& fullAabb,
    w.writeBool(true);
    w.writeUint32Big(featureCount);
    w.writeUint32Big(lights.size());
-    w.writeUint32Big(0);
+    w.writeUint32Big(layer2LightCount);
    w.writeUint32Big(entities.size());
    w.writeUint32Big(leafBytesCount);
    w.writeUint32Big(lights.size());
--- a/visigen/VISIBuilder.hpp
+++ b/visigen/VISIBuilder.hpp
@ -122,6 +122,7 @@ struct VISIBuilder
                               size_t modelCount,
                               const std::vector<VISIRenderer::Entity>& entities,
                               const std::vector<VISIRenderer::Light>& lights,
                               size_t layer2LightCount,
                               FPercent updatePercent);
    VISIBuilder(VISIRenderer& renderer) : renderCache(renderer) {}
--- a/visigen/VISIRenderer.cpp
+++ b/visigen/VISIRenderer.cpp
@ -488,6 +488,7 @@ void VISIRenderer::Run(FPercent updatePercent)
        return;
    }
    uint32_t layer2LightCount = 0;
    {
        athena::io::FileReader r(m_argv[1]);
        if (r.hasError())
@ -545,6 +546,7 @@ void VISIRenderer::Run(FPercent updatePercent)
        }
        uint32_t lightCount = r.readUint32Big();
        layer2LightCount = r.readUint32Big();
        m_lights.resize(lightCount);
        for (uint32_t i=0 ; i<lightCount ; ++i)
        {
@ -561,7 +563,8 @@ void VISIRenderer::Run(FPercent updatePercent)
    VISIBuilder builder(*this);
    std::vector<uint8_t> dataOut = builder.build(m_totalAABB, m_models.size(),
-                                                 m_entities, m_lights, m_updatePercent);
+                                                 m_entities, m_lights, layer2LightCount,
                                                 m_updatePercent);
    if (dataOut.empty())
    {
        m_return = 1;