CFishCloud: Brace statements where applicable

Makes the code more uniform and consistent. While we're in the same area, we can make use of const where applicable.
2020-04-17 00:44:47 -04:00 · 2020-04-17 00:44:47 -04:00 · fa9f0fdc61
parent 3715e6dcbb
commit fa9f0fdc61
1 changed files with 254 additions and 152 deletions
--- a/Runtime/World/CFishCloud.cpp
+++ b/Runtime/World/CFishCloud.cpp
@ -63,14 +63,18 @@ CFishCloud::CFishCloud(TUniqueId uid, bool active, std::string_view name, const
    x1b0_models.emplace_back(std::make_unique<CModelData>(aRes));
    x250_27_validModel = true;
  }
-  if (part1.IsValid())
+  if (part1.IsValid()) {
    x1c4_particleDescs.push_back(g_SimplePool->GetObj({FOURCC('PART'), part1}));
-  if (part2.IsValid())
+  }
+  if (part2.IsValid()) {
    x1c4_particleDescs.push_back(g_SimplePool->GetObj({FOURCC('PART'), part2}));
-  if (part3.IsValid())
+  }
+  if (part3.IsValid()) {
    x1c4_particleDescs.push_back(g_SimplePool->GetObj({FOURCC('PART'), part3}));
-  if (part4.IsValid())
+  }
+  if (part4.IsValid()) {
    x1c4_particleDescs.push_back(g_SimplePool->GetObj({FOURCC('PART'), part4}));
+  }
  for (const auto& p : x1c4_particleDescs) {
    x1f8_particleGens.emplace_back(std::make_unique<CElementGen>(p));
    x1f8_particleGens.back()->SetParticleEmission(false);
@ -79,7 +83,7 @@ CFishCloud::CFishCloud(TUniqueId uid, bool active, std::string_view name, const
  x21c_deathParticleCounts.push_back(partCount2);
  x21c_deathParticleCounts.push_back(partCount3);
  x21c_deathParticleCounts.push_back(partCount4);
-  zeus::CAABox aabb = GetBoundingBox();
+  const zeus::CAABox aabb = GetBoundingBox();
  x238_partitionPitch = (aabb.max - aabb.min) / 7.f;
  x244_ooPartitionPitch = 1.f / x238_partitionPitch;
 }
@ -87,17 +91,18 @@ CFishCloud::CFishCloud(TUniqueId uid, bool active, std::string_view name, const
 void CFishCloud::Accept(IVisitor& visitor) { visitor.Visit(this); }

 void CFishCloud::UpdateParticles(float dt) {
-  for (auto& p : x1f8_particleGens)
+  for (auto& p : x1f8_particleGens) {
    p->Update(dt);
+  }
 }

 void CFishCloud::UpdatePartitionList() {
  xf8_boidPartitionLists.clear();
  xf8_boidPartitionLists.resize(xf8_boidPartitionLists.capacity());
-  auto aabb = GetBoundingBox();
+  const auto aabb = GetBoundingBox();
  for (auto& b : xe8_boids) {
-    zeus::CVector3f idxs = (b.x0_pos - aabb.min) * x244_ooPartitionPitch;
-    int idx = int(idxs.x()) + int(idxs.y()) * 7 + int(idxs.z()) * 49;
+    const zeus::CVector3f idxs = (b.x0_pos - aabb.min) * x244_ooPartitionPitch;
+    const int idx = int(idxs.x()) + int(idxs.y()) * 7 + int(idxs.z()) * 49;
    if (idx >= 0 && idx < 343) {
      b.x1c_next = xf8_boidPartitionLists[idx];
      xf8_boidPartitionLists[idx] = &b;
@ -106,39 +111,41 @@ void CFishCloud::UpdatePartitionList() {
 }

 bool CFishCloud::PointInBox(const zeus::CAABox& aabb, const zeus::CVector3f& point) const {
-  if (!x250_25_worldSpace)
+  if (!x250_25_worldSpace) {
    return aabb.pointInside(point);
+  }
  return GetUntransformedBoundingBox().pointInside(GetTransform().transposeRotate(point - GetTranslation()));
 }

 zeus::CPlane CFishCloud::FindClosestPlane(const zeus::CAABox& aabb, const zeus::CVector3f& point) const {
  if (!x250_25_worldSpace) {
    float minDist = FLT_MAX;
-    zeus::CAABox::EBoxFaceId minFace = zeus::CAABox::EBoxFaceId::YMin;
+    auto minFace = zeus::CAABox::EBoxFaceId::YMin;
    for (int i = 0; i < 6; ++i) {
-      auto tri = aabb.getTri(zeus::CAABox::EBoxFaceId(i), 0);
-      float dist = zeus::CPlane(tri.x10_verts[0], tri.x10_verts[2], tri.x10_verts[1]).pointToPlaneDist(point);
+      const auto tri = aabb.getTri(zeus::CAABox::EBoxFaceId(i), 0);
+      const float dist = zeus::CPlane(tri.x10_verts[0], tri.x10_verts[2], tri.x10_verts[1]).pointToPlaneDist(point);
      if (dist >= 0.f && dist < minDist) {
        minDist = dist;
        minFace = zeus::CAABox::EBoxFaceId(i);
      }
    }
-    auto tri = aabb.getTri(minFace, 0);
+    const auto tri = aabb.getTri(minFace, 0);
    return zeus::CPlane(tri.x10_verts[0], tri.x10_verts[2], tri.x10_verts[1]);
  } else {
-    auto unPoint = GetTransform().transposeRotate(point - GetTranslation());
-    auto unAabb = GetUntransformedBoundingBox();
+    const auto unPoint = GetTransform().transposeRotate(point - GetTranslation());
+    const auto unAabb = GetUntransformedBoundingBox();
    float minDist = FLT_MAX;
-    zeus::CAABox::EBoxFaceId minFace = zeus::CAABox::EBoxFaceId::YMin;
+    auto minFace = zeus::CAABox::EBoxFaceId::YMin;
    for (int i = 0; i < 6; ++i) {
-      auto tri = unAabb.getTri(zeus::CAABox::EBoxFaceId(i), 0);
-      float dist = zeus::CPlane(tri.x10_verts[0], tri.x10_verts[2], tri.x10_verts[1]).pointToPlaneDist(unPoint);
+      const auto tri = unAabb.getTri(zeus::CAABox::EBoxFaceId(i), 0);
+      const float dist = zeus::CPlane(tri.x10_verts[0], tri.x10_verts[2], tri.x10_verts[1]).pointToPlaneDist(unPoint);
      if (dist >= 0.f && dist < minDist) {
        minDist = dist;
        minFace = zeus::CAABox::EBoxFaceId(i);
      }
    }
-    auto tri = unAabb.getTri(minFace, 0);
+
+    const auto tri = unAabb.getTri(minFace, 0);
    return zeus::CPlane(GetTransform() * tri.x10_verts[0],
                        GetTransform() * tri.x10_verts[2],
                        GetTransform() * tri.x10_verts[1]);
@ -146,71 +153,85 @@ zeus::CPlane CFishCloud::FindClosestPlane(const zeus::CAABox& aabb, const zeus::
 }

 CFishCloud::CBoid* CFishCloud::GetListAt(const zeus::CVector3f& pos) {
-  zeus::CAABox aabb = GetBoundingBox();
-  zeus::CVector3f ints = (pos - aabb.min) * x244_ooPartitionPitch;
-  int idx = int(ints.x()) + int(ints.y()) * 7 + int(ints.z()) * 49;
-  if (idx < 0 || idx >= 343)
+  const zeus::CAABox aabb = GetBoundingBox();
+  const zeus::CVector3f ints = (pos - aabb.min) * x244_ooPartitionPitch;
+  const int idx = int(ints.x()) + int(ints.y()) * 7 + int(ints.z()) * 49;
+
+  if (idx < 0 || idx >= 343) {
    return nullptr;
+  }
+
  return xf8_boidPartitionLists[idx];
 }

 void CFishCloud::BuildBoidNearList(const zeus::CVector3f& pos, float radius,
                                   rstl::reserved_vector<CBoid*, 25>& nearList) {
-  float radiusSq = radius * radius;
+  const float radiusSq = radius * radius;
  CBoid* b = GetListAt(pos);
-  while (b && nearList.size() < 25) {
+
+  while (b != nullptr && nearList.size() < 25) {
    if (b->x20_active) {
-      float distSq = (b->GetTranslation() - pos).magSquared();
-      if (distSq != 0.f && distSq < radiusSq)
+      const float distSq = (b->GetTranslation() - pos).magSquared();
+      if (distSq != 0.f && distSq < radiusSq) {
        nearList.push_back(b);
      }
+    }
    b = b->x1c_next;
  }
 }

 void CFishCloud::BuildBoidNearPartitionList(const zeus::CVector3f& pos, float radius,
                                            rstl::reserved_vector<CBoid*, 25>& nearList) {
-  float radiusSq = radius * radius;
-  zeus::CAABox aabb = GetBoundingBox();
-  float x = std::max(radius * x244_ooPartitionPitch.x(), float(x238_partitionPitch.x()));
-  float y = std::max(radius * x244_ooPartitionPitch.y(), float(x238_partitionPitch.y()));
-  float z = std::max(radius * x244_ooPartitionPitch.z(), float(x238_partitionPitch.z()));
-  float nx = 0.01f - x;
-  float ny = 0.01f - y;
-  float nz = 0.01f - z;
+  const float radiusSq = radius * radius;
+  const zeus::CAABox aabb = GetBoundingBox();
+  const float x = std::max(radius * x244_ooPartitionPitch.x(), float(x238_partitionPitch.x()));
+  const float y = std::max(radius * x244_ooPartitionPitch.y(), float(x238_partitionPitch.y()));
+  const float z = std::max(radius * x244_ooPartitionPitch.z(), float(x238_partitionPitch.z()));
+  const float nx = 0.01f - x;
+  const float ny = 0.01f - y;
+  const float nz = 0.01f - z;
+
  for (float lnx = nx; lnx < x; lnx += x238_partitionPitch.x()) {
-    float cx = lnx + pos.x();
-    if (cx < aabb.min.x())
+    const float cx = lnx + pos.x();
+    if (cx < aabb.min.x()) {
      continue;
-    if (cx >= aabb.max.x())
+    }
+    if (cx >= aabb.max.x()) {
      break;
+    }
    for (float lny = ny; lny < y; lny += x238_partitionPitch.y()) {
-      float cy = lny + pos.y();
-      if (cy < aabb.min.y())
+      const float cy = lny + pos.y();
+      if (cy < aabb.min.y()) {
        continue;
-      if (cy >= aabb.max.y())
+      }
+      if (cy >= aabb.max.y()) {
        break;
+      }
      for (float lnz = nz; lnz < z; lnz += x238_partitionPitch.z()) {
-        float cz = lnz + pos.z();
-        if (cz < aabb.min.z())
+        const float cz = lnz + pos.z();
+        if (cz < aabb.min.z()) {
          continue;
-        if (cz >= aabb.max.z())
+        }
+        if (cz >= aabb.max.z()) {
          break;
-        zeus::CVector3f ints = (zeus::CVector3f(cx, cy, cz) - aabb.min) * x244_ooPartitionPitch;
-        int idx = int(ints.x()) + int(ints.y()) * 7 + int(ints.z()) * 49;
-        if (idx < 0)
+        }
+        const zeus::CVector3f ints = (zeus::CVector3f(cx, cy, cz) - aabb.min) * x244_ooPartitionPitch;
+        const int idx = int(ints.x()) + int(ints.y()) * 7 + int(ints.z()) * 49;
+        if (idx < 0) {
          continue;
+        }
        if (idx < 343) {
          CBoid* boid = xf8_boidPartitionLists[idx];
-          while (boid) {
+          while (boid != nullptr) {
            if (boid->x20_active) {
-              float distSq = (boid->x0_pos - pos).magSquared();
+              const float distSq = (boid->x0_pos - pos).magSquared();
              if (distSq != 0.f && distSq < radiusSq) {
                nearList.push_back(boid);
-                if (nearList.size() == 25)
+                if (nearList.size() == 25) {
                  return;
                }
              }
+            }
            boid = boid->x1c_next;
          }
        }
@ -220,7 +241,7 @@ void CFishCloud::BuildBoidNearPartitionList(const zeus::CVector3f& pos, float ra
 }

 void CFishCloud::PlaceBoid(CStateManager& mgr, CBoid& boid, const zeus::CAABox& aabb) const {
-  auto plane = FindClosestPlane(aabb, boid.x0_pos);
+  const auto plane = FindClosestPlane(aabb, boid.x0_pos);
  boid.x0_pos -= plane.pointToPlaneDist(boid.x0_pos) * plane.normal() + 0.0001f * plane.normal();
  boid.xc_vel.y() = mgr.GetActiveRandom()->Float() - 0.5f;
  boid.xc_vel.x() = mgr.GetActiveRandom()->Float() - 0.5f;
@ -233,7 +254,7 @@ void CFishCloud::PlaceBoid(CStateManager& mgr, CBoid& boid, const zeus::CAABox&
    }
  } else {
    if (!PointInBox(aabb, boid.x0_pos)) {
-      auto unAabb = GetUntransformedBoundingBox();
+      const auto unAabb = GetUntransformedBoundingBox();
      boid.x0_pos.z() = mgr.GetActiveRandom()->Float() * (unAabb.max.z() - unAabb.min.z()) + unAabb.min.z();
      boid.x0_pos.y() = mgr.GetActiveRandom()->Float() * (unAabb.max.y() - unAabb.min.y()) + unAabb.min.y();
      boid.x0_pos.x() = mgr.GetActiveRandom()->Float() * (unAabb.max.x() - unAabb.min.x()) + unAabb.min.x();
@ -243,57 +264,75 @@ void CFishCloud::PlaceBoid(CStateManager& mgr, CBoid& boid, const zeus::CAABox&
 }

 void CFishCloud::ApplySeparation(CBoid& boid, const rstl::reserved_vector<CBoid*, 25>& nearList) const {
-  if (nearList.empty())
+  if (nearList.empty()) {
    return;
+  }
+
  float minDist = FLT_MAX;
  zeus::CVector3f pos;
-  for (CBoid* b : nearList) {
-    float dist = (boid.GetTranslation() - b->GetTranslation()).magSquared();
+  for (const CBoid* b : nearList) {
+    const float dist = (boid.GetTranslation() - b->GetTranslation()).magSquared();
    if (dist < minDist) {
      minDist = dist;
      pos = b->GetTranslation();
    }
  }
+
  ApplySeparation(boid, pos, x138_separationRadius, x144_separationMagnitude);
 }

 void CFishCloud::ApplySeparation(CBoid& boid, const zeus::CVector3f& separateFrom,
                                 float separationRadius, float separationMagnitude) const {
-  zeus::CVector3f delta = boid.GetTranslation() - separateFrom;
-  if (delta.canBeNormalized()) {
-    float deltaDistSq = delta.magSquared();
-    float capDeltaDistSq = separationRadius * separationRadius;
-    if (deltaDistSq < capDeltaDistSq)
-      boid.xc_vel += (1.f - deltaDistSq / capDeltaDistSq) * delta.normalized() * separationMagnitude;
+  const zeus::CVector3f delta = boid.GetTranslation() - separateFrom;
+  if (!delta.canBeNormalized()) {
+    return;
  }
+
+  const float deltaDistSq = delta.magSquared();
+  const float capDeltaDistSq = separationRadius * separationRadius;
+  if (deltaDistSq >= capDeltaDistSq) {
+    return;
+  }
+
+  boid.xc_vel += (1.f - deltaDistSq / capDeltaDistSq) * delta.normalized() * separationMagnitude;
 }

 void CFishCloud::ApplyCohesion(CBoid& boid, const rstl::reserved_vector<CBoid*, 25>& nearList) const {
-  if (nearList.empty())
+  if (nearList.empty()) {
    return;
+  }
+
  zeus::CVector3f avg;
-  for (CBoid* b : nearList)
+  for (const CBoid* b : nearList) {
    avg += b->GetTranslation();
+  }
+
  avg = avg / float(nearList.size());
  ApplyCohesion(boid, avg, x138_separationRadius, x13c_cohesionMagnitude);
 }

 void CFishCloud::ApplyCohesion(CBoid& boid, const zeus::CVector3f& cohesionFrom,
                               float cohesionRadius, float cohesionMagnitude) const {
-  zeus::CVector3f delta = cohesionFrom - boid.GetTranslation();
-  if (delta.canBeNormalized()) {
-    float distSq = delta.magSquared();
-    float capDistSq = cohesionRadius * cohesionRadius;
-    boid.xc_vel += ((distSq > capDistSq) ? 1.f : distSq / capDistSq) * delta.normalized() * cohesionMagnitude;
+  const zeus::CVector3f delta = cohesionFrom - boid.GetTranslation();
+  if (!delta.canBeNormalized()) {
+    return;
  }
+
+  const float distSq = delta.magSquared();
+  const float capDistSq = cohesionRadius * cohesionRadius;
+  boid.xc_vel += ((distSq > capDistSq) ? 1.f : distSq / capDistSq) * delta.normalized() * cohesionMagnitude;
 }

 void CFishCloud::ApplyAlignment(CBoid& boid, const rstl::reserved_vector<CBoid*, 25>& nearList) const {
-  if (nearList.empty())
+  if (nearList.empty()) {
    return;
+  }
+
  zeus::CVector3f avg;
-  for (CBoid* b : nearList)
+  for (const CBoid* b : nearList) {
    avg += b->xc_vel;
+  }
+
  avg = avg / float(nearList.size());
  boid.xc_vel += zeus::CVector3f::getAngleDiff(boid.xc_vel, avg) / M_PIF *
    (avg * x140_alignmentWeight);
@ -301,12 +340,14 @@ void CFishCloud::ApplyAlignment(CBoid& boid, const rstl::reserved_vector<CBoid*,

 void CFishCloud::ApplyAttraction(CBoid& boid, const zeus::CVector3f& attractTo,
                                 float attractionRadius, float attractionMagnitude) const {
-  zeus::CVector3f delta = attractTo - boid.GetTranslation();
-  if (delta.canBeNormalized()) {
-    float distSq = delta.magSquared();
-    float capDistSq = attractionRadius * attractionRadius;
-    boid.xc_vel += ((distSq > capDistSq) ? 0.f : (1.f - distSq / capDistSq)) * delta.normalized() * attractionMagnitude;
+  const zeus::CVector3f delta = attractTo - boid.GetTranslation();
+  if (!delta.canBeNormalized()) {
+    return;
  }
+
+  const float distSq = delta.magSquared();
+  const float capDistSq = attractionRadius * attractionRadius;
+  boid.xc_vel += ((distSq > capDistSq) ? 0.f : (1.f - distSq / capDistSq)) * delta.normalized() * attractionMagnitude;
 }

 void CFishCloud::ApplyRepulsion(CBoid& boid, const zeus::CVector3f& attractTo,
@ -316,74 +357,93 @@ void CFishCloud::ApplyRepulsion(CBoid& boid, const zeus::CVector3f& attractTo,

 void CFishCloud::ApplySwirl(CBoid& boid, const zeus::CVector3f& swirlPoint, bool clockwise,
                            float magnitude, float radius) const {
-  zeus::CVector3f delta = boid.x0_pos - swirlPoint;
-  float deltaMag = delta.magnitude();
+  const zeus::CVector3f delta = boid.x0_pos - swirlPoint;
+  const float deltaMag = delta.magnitude();
+
  zeus::CVector3f alignVec;
-  if (clockwise)
+  if (clockwise) {
    alignVec = delta.normalized().cross(zeus::skUp);
-  else
+  } else {
    alignVec = zeus::skUp.cross(delta / deltaMag);
-  float weight = deltaMag > radius ? 0.f : 1.f - deltaMag / radius;
+  }
+
+  const float weight = deltaMag > radius ? 0.f : 1.f - deltaMag / radius;
  boid.xc_vel += zeus::CVector3f::getAngleDiff(boid.xc_vel, alignVec) / M_PIF *
    weight * (magnitude * alignVec);
 }

 void CFishCloud::ApplyContainment(CBoid& boid, const zeus::CAABox& aabb) const {
-  if (boid.xc_vel.canBeNormalized()) {
-    if (!PointInBox(aabb, boid.xc_vel.normalized() * x130_speed * x174_containmentRadius + boid.x0_pos)) {
+  if (!boid.xc_vel.canBeNormalized()) {
+    return;
+  }
+
+  if (PointInBox(aabb, boid.xc_vel.normalized() * x130_speed * x174_containmentRadius + boid.x0_pos)) {
+    return;
+  }
+
  ApplyAttraction(boid, aabb.center(), 100000.f, x158_containmentMagnitude);
-    }
-  }
 }

 void CFishCloud::ScatterBoid(CStateManager& mgr, CBoid& b) const {
-  float angle = (mgr.GetActiveRandom()->Float() - 0.5f) * M_PIF * x154_maxScatterAngle;
-  float cosAngle = std::cos(angle);
-  float sinAngle = std::sin(angle);
+  const float angle = (mgr.GetActiveRandom()->Float() - 0.5f) * M_PIF * x154_maxScatterAngle;
+  const float cosAngle = std::cos(angle);
+  const float sinAngle = std::sin(angle);
  b.xc_vel.x() += x150_scatterVel * (b.xc_vel.y() * sinAngle + b.xc_vel.x() * cosAngle);
  b.xc_vel.y() += x150_scatterVel * (b.xc_vel.y() * cosAngle + b.xc_vel.x() * sinAngle);
 }

 void CFishCloud::Think(float dt, CStateManager& mgr) {
-  if (!GetActive())
+  if (!GetActive()) {
    return;
+  }
+
  const CGameArea* area = mgr.GetWorld()->GetAreaAlways(x4_areaId);
-  auto occState = area->IsPostConstructed() ? area->GetOcclusionState() : CGameArea::EOcclusionState::Occluded;
+  const auto occState = area->IsPostConstructed() ? area->GetOcclusionState() : CGameArea::EOcclusionState::Occluded;
  if (occState == CGameArea::EOcclusionState::Visible) {
    x168_weaponRepelDamping = std::max(0.f, x168_weaponRepelDamping - x160_weaponRepelDampingSpeed * dt * 0.1f);
-    if (x250_26_enableWeaponRepelDamping)
-      x168_weaponRepelDamping = std::min(x160_weaponRepelDampingSpeed * dt + x168_weaponRepelDamping,
-                                         x148_weaponRepelMagnitude);
+    if (x250_26_enableWeaponRepelDamping) {
+      x168_weaponRepelDamping =
+          std::min(x160_weaponRepelDampingSpeed * dt + x168_weaponRepelDamping, x148_weaponRepelMagnitude);
+    }
+
    x164_playerRepelDamping = std::max(0.f, x164_playerRepelDamping - x15c_playerRepelDampingSpeed * dt * 0.1f);
-    if (x250_30_enablePlayerRepelDamping)
-      x164_playerRepelDamping = std::min(x15c_playerRepelDampingSpeed * dt + x164_playerRepelDamping,
-                                         x14c_playerRepelMagnitude);
+    if (x250_30_enablePlayerRepelDamping) {
+      x164_playerRepelDamping =
+          std::min(x15c_playerRepelDampingSpeed * dt + x164_playerRepelDamping, x14c_playerRepelMagnitude);
+    }
+
    x250_26_enableWeaponRepelDamping = false;
    x250_30_enablePlayerRepelDamping = false;
    ++x118_thinkCounter;
+
    UpdateParticles(dt);
    UpdatePartitionList();
-    zeus::CAABox aabb = GetBoundingBox();
+
+    const zeus::CAABox aabb = GetBoundingBox();
    int idx = 0;
    for (auto& b : xe8_boids) {
      if (b.x20_active && (idx & x11c_updateMask) == (x118_thinkCounter & x11c_updateMask)) {
        rstl::reserved_vector<CBoid*, 25> nearList;
-        if (x250_31_updateWithoutPartitions)
+        if (x250_31_updateWithoutPartitions) {
          BuildBoidNearList(b.x0_pos, x138_separationRadius, nearList);
-        else
+        } else {
          BuildBoidNearPartitionList(b.x0_pos, x138_separationRadius, nearList);
+        }
+
        for (int i = 0; i < 5; ++i) {
          switch (i) {
          case 1:
            ApplySeparation(b, nearList);
            break;
          case 2:
-            if (!x250_24_randomMovement || mgr.GetActiveRandom()->Float() > x12c_randomMovementTimer)
+            if (!x250_24_randomMovement || mgr.GetActiveRandom()->Float() > x12c_randomMovementTimer) {
              ApplyCohesion(b, nearList);
+            }
            break;
          case 3:
-            if (!x250_24_randomMovement || mgr.GetActiveRandom()->Float() > x12c_randomMovementTimer)
+            if (!x250_24_randomMovement || mgr.GetActiveRandom()->Float() > x12c_randomMovementTimer) {
              ApplyAlignment(b, nearList);
+            }
            break;
          case 4:
            ScatterBoid(mgr, b);
@ -391,12 +451,14 @@ void CFishCloud::Think(float dt, CStateManager& mgr) {
          default:
            break;
          }
-          if (b.xc_vel.magSquared() > 3.2f)
+          if (b.xc_vel.magSquared() > 3.2f) {
            break;
          }
+        }
+
        if (!x250_24_randomMovement && b.xc_vel.magSquared() < 3.2f) {
-          for (auto& m : x108_modifierSources) {
-            if (TCastToPtr<CActor> act = mgr.ObjectById(m.x0_source)) {
+          for (const auto& m : x108_modifierSources) {
+            if (const TCastToConstPtr<CActor> act = mgr.ObjectById(m.x0_source)) {
              if (m.xd_isSwirl) {
                ApplySwirl(b, act->GetTranslation(), m.xc_isRepulsor, m.x8_priority, m.x4_radius);
              } else if (m.xc_isRepulsor) {
@ -416,28 +478,34 @@ void CFishCloud::Think(float dt, CStateManager& mgr) {
      }
      ++idx;
    }
+
    for (auto& b : xe8_boids) {
      if (b.x20_active) {
        ApplyContainment(b, aabb);
-        float velMag = b.xc_vel.magnitude();
-        if (!zeus::close_enough(velMag, 0.f))
+        const float velMag = b.xc_vel.magnitude();
+        if (!zeus::close_enough(velMag, 0.f)) {
          b.xc_vel = b.xc_vel / velMag;
+        }
        b.xc_vel.z() *= 0.99f;
      }
    }
+
    if (x12c_randomMovementTimer > 0.f) {
      x12c_randomMovementTimer -= dt;
    } else {
      x12c_randomMovementTimer = 0.f;
      x250_24_randomMovement = false;
    }
+
    for (auto& b : xe8_boids) {
      if (b.x20_active) {
        b.x0_pos += b.xc_vel * dt * x130_speed;
-        if (!PointInBox(aabb, b.x0_pos))
+        if (!PointInBox(aabb, b.x0_pos)) {
          PlaceBoid(mgr, b, aabb);
        }
      }
+    }
+
    if (x250_27_validModel) {
      for (auto& m : x1b0_models) {
        m->GetAnimationData()->SetPlaybackRate(1.f);
@ -455,8 +523,8 @@ void CFishCloud::AllocateSkinnedModels(CStateManager& mgr, CModelData::EWhichMod
  int idx = 0;
  for (auto& m : x1b0_models) {
    m->EnableLooping(true);
-    m->AdvanceAnimation(
-      m->GetAnimationData()->GetAnimTimeRemaining("Whole Body"sv) * 0.25f * idx, mgr, x4_areaId, true);
+    m->AdvanceAnimation(m->GetAnimationData()->GetAnimTimeRemaining("Whole Body"sv) * 0.25f * float(idx), mgr,
+                        x4_areaId, true);
    ++idx;
  }
  x230_whichModel = which;
@ -467,10 +535,10 @@ void CFishCloud::AcceptScriptMsg(EScriptObjectMessage msg, TUniqueId sender, CSt
  switch (msg) {
  case EScriptObjectMessage::Registered: {
    xe8_boids.reserve(x134_numBoids);
-    zeus::CAABox aabb = GetUntransformedBoundingBox();
-    zeus::CVector3f extent = aabb.max - aabb.min;
+    const zeus::CAABox aabb = GetUntransformedBoundingBox();
+    const zeus::CVector3f extent = aabb.max - aabb.min;
    zeus::CVector3f randPoint;
-    for (int i = 0; i < x134_numBoids; ++i) {
+    for (u32 i = 0; i < x134_numBoids; ++i) {
      randPoint.z() = mgr.GetActiveRandom()->Float() * extent.z() + aabb.min.z();
      randPoint.y() = mgr.GetActiveRandom()->Float() * extent.y() + aabb.min.y();
      randPoint.x() = mgr.GetActiveRandom()->Float() * extent.x() + aabb.min.x();
@ -481,8 +549,9 @@ void CFishCloud::AcceptScriptMsg(EScriptObjectMessage msg, TUniqueId sender, CSt
                             0.2f * std::pow(mgr.GetActiveRandom()->Float(), 7.f) + 0.9f);
    }
    CreatePartitionList();
-    if (x250_27_validModel)
+    if (x250_27_validModel) {
      AllocateSkinnedModels(mgr, CModelData::EWhichModel::Normal);
+    }
    break;
  }
  default:
@ -501,22 +570,26 @@ void CFishCloud::PreRender(CStateManager& mgr, const zeus::CFrustum& frustum) {
 }

 void CFishCloud::AddParticlesToRenderer() const {
-  for (const auto& p : x1f8_particleGens)
+  for (const auto& p : x1f8_particleGens) {
    g_Renderer->AddParticleGen(*p);
+  }
 }

 void CFishCloud::RenderBoid(int idx, const CBoid& boid, u32& drawMask,
                            bool thermalHot, const CModelFlags& flags) const {
-  u32 modelIndex = idx & 0x3;
+  const u32 modelIndex = idx & 0x3;
  CModelData& mData = *x1b0_models[modelIndex];
  CSkinnedModel& model = mData.PickAnimatedModel(CModelData::EWhichModel::Normal);
-  if (!model.GetModelInst()->TryLockTextures())
+  if (!model.GetModelInst()->TryLockTextures()) {
    return;
-  u32 thisDrawMask = 1u << modelIndex;
-  if (drawMask & thisDrawMask) {
+  }
+
+  const u32 thisDrawMask = 1u << modelIndex;
+  if ((drawMask & thisDrawMask) != 0) {
    drawMask &= ~thisDrawMask;
    mData.GetAnimationData()->BuildPose();
  }
+
  model.GetModelInst()->SetAmbientColor(zeus::skWhite);
  CGraphics::SetModelMatrix(zeus::lookAt(boid.x0_pos, boid.x0_pos + boid.xc_vel));
  if (thermalHot) {
@ -528,24 +601,31 @@ void CFishCloud::RenderBoid(int idx, const CBoid& boid, u32& drawMask,
 }

 void CFishCloud::Render(CStateManager& mgr) {
-  if (!GetActive())
+  if (!GetActive()) {
    return;
+  }
+
  SCOPED_GRAPHICS_DEBUG_GROUP(fmt::format(FMT_STRING("CFishCloud::Render {} {} {}"),
                                          x8_uid, xc_editorId, x10_name).c_str(), zeus::skOrange);
-  bool thermalHot = mgr.GetThermalDrawFlag() == EThermalDrawFlag::Hot;
+
+  const bool thermalHot = mgr.GetThermalDrawFlag() == EThermalDrawFlag::Hot;
  CModelFlags flags(0, 0, 3, zeus::skWhite);
-  if (mgr.GetPlayerState()->GetActiveVisor(mgr) == CPlayerState::EPlayerVisor::XRay)
+  if (mgr.GetPlayerState()->GetActiveVisor(mgr) == CPlayerState::EPlayerVisor::XRay) {
    flags = CModelFlags(5, 0, 3, x16c_color);
-  else
+  } else {
    flags = CModelFlags(1, 0, 3, x16c_color);
+  }
+
  AddParticlesToRenderer();
+
  if (x250_27_validModel) {
    // Ambient white
    int idx = 0;
    u32 drawMask = 0xffffffff;
    for (const auto& b : xe8_boids) {
-      if (b.x20_active)
+      if (b.x20_active) {
        RenderBoid(idx, b, drawMask, thermalHot, flags);
+      }
      ++idx;
    }
  } else {
@ -595,35 +675,41 @@ void CFishCloud::KillBoid(CBoid& b) const {

 void CFishCloud::Touch(CActor& other, CStateManager& mgr) {
  CActor::Touch(other, mgr);
-  if (TCastToPtr<CWeapon> weap = other) {
+
+  if (const TCastToConstPtr<CWeapon> weap = other) {
    if (!x250_26_enableWeaponRepelDamping && x250_29_repelFromThreats) {
      int idx = 0;
      for (auto& b : xe8_boids) {
-        if ((idx & 0x3) == (x118_thinkCounter & 0x3))
+        if ((idx & 0x3) == (x118_thinkCounter & 0x3)) {
          ApplyRepulsion(b, weap->GetTranslation(), 8.f, x148_weaponRepelMagnitude - x168_weaponRepelDamping);
+        }
        ++idx;
      }
    }
+
    x250_26_enableWeaponRepelDamping = true;
+
    if (x250_28_killable) {
-      if (auto tb = weap->GetTouchBounds()) {
+      if (const auto tb = weap->GetTouchBounds()) {
        for (auto& b : xe8_boids) {
-          if (b.x20_active &&
-              tb->intersects(zeus::CAABox(weap->GetTranslation() - x170_weaponKillRadius,
-                                          weap->GetTranslation() + x170_weaponKillRadius)))
+          if (b.x20_active && tb->intersects(zeus::CAABox(weap->GetTranslation() - x170_weaponKillRadius,
+                                                          weap->GetTranslation() + x170_weaponKillRadius))) {
            KillBoid(b);
          }
        }
      }
    }
+  }
+
  if (x250_29_repelFromThreats) {
-    if (TCastToPtr<CPlayer> player = other) {
-      zeus::CVector3f playerPos = player->GetTranslation();
+    if (const TCastToConstPtr<CPlayer> player = other) {
+      const zeus::CVector3f playerPos = player->GetTranslation();
      for (auto& b : xe8_boids) {
        zeus::CVector3f adjPlayerPos = playerPos;
-        float zDelta = b.x0_pos.z() - adjPlayerPos.z();
-        if (zDelta > 0.f && zDelta < 2.3f)
+        const float zDelta = b.x0_pos.z() - adjPlayerPos.z();
+        if (zDelta > 0.f && zDelta < 2.3f) {
          adjPlayerPos.z() = float(b.x0_pos.z());
+        }
        adjPlayerPos.x() += mgr.GetActiveRandom()->Float() * 0.2f - 0.1f;
        adjPlayerPos.y() += mgr.GetActiveRandom()->Float() * 0.2f - 0.1f;
        ApplyRepulsion(b, adjPlayerPos, 8.f, x14c_playerRepelMagnitude - x164_playerRepelDamping);
@ -634,7 +720,7 @@ void CFishCloud::Touch(CActor& other, CStateManager& mgr) {
 }

 zeus::CAABox CFishCloud::GetUntransformedBoundingBox() const {
-  zeus::CVector3f extent = x120_scale * 0.75f;
+  const zeus::CVector3f extent = x120_scale * 0.75f;
  return zeus::CAABox(-extent, extent);
 }

@ -643,46 +729,62 @@ zeus::CAABox CFishCloud::GetBoundingBox() const {
 }

 void CFishCloud::RemoveRepulsor(TUniqueId sourceId) {
-  CModifierSource source(sourceId, true, false, 0.f, 0.f);
-  auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
-  if (it != x108_modifierSources.end())
+  const CModifierSource source(sourceId, true, false, 0.f, 0.f);
+  const auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+
+  if (it == x108_modifierSources.end()) {
+    return;
+  }
+
  x108_modifierSources.erase(it);
 }

 void CFishCloud::RemoveAttractor(TUniqueId sourceId) {
-  CModifierSource source(sourceId, false, false, 0.f, 0.f);
-  auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
-  if (it != x108_modifierSources.end())
+  const CModifierSource source(sourceId, false, false, 0.f, 0.f);
+  const auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+
+  if (it == x108_modifierSources.end()) {
+    return;
+  }
+
  x108_modifierSources.erase(it);
 }

 bool CFishCloud::AddRepulsor(TUniqueId sourceId, bool swirl, float radius, float priority) {
-  CModifierSource source(sourceId, true, swirl, radius, priority);
-  auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+  const CModifierSource source(sourceId, true, swirl, radius, priority);
+  const auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+
  if (it != x108_modifierSources.end()) {
    it->x4_radius = radius;
    it->x8_priority = priority;
    return true;
-  } else if (x108_modifierSources.size() < x108_modifierSources.capacity()) {
-    x108_modifierSources.insert(std::lower_bound(
-      x108_modifierSources.begin(), x108_modifierSources.end(), source), source);
+  }
+
+  if (x108_modifierSources.size() < x108_modifierSources.capacity()) {
+    x108_modifierSources.insert(std::lower_bound(x108_modifierSources.begin(), x108_modifierSources.end(), source),
+                                source);
    return true;
  }
+
  return false;
 }

 bool CFishCloud::AddAttractor(TUniqueId sourceId, bool swirl, float radius, float priority) {
-  CModifierSource source(sourceId, false, swirl, radius, priority);
-  auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+  const CModifierSource source(sourceId, false, swirl, radius, priority);
+  const auto it = rstl::binary_find(x108_modifierSources.begin(), x108_modifierSources.end(), source);
+
  if (it != x108_modifierSources.end()) {
    it->x4_radius = radius;
    it->x8_priority = priority;
    return true;
-  } else if (x108_modifierSources.size() < x108_modifierSources.capacity()) {
-    x108_modifierSources.insert(std::lower_bound(
-      x108_modifierSources.begin(), x108_modifierSources.end(), source), source);
+  }
+
+  if (x108_modifierSources.size() < x108_modifierSources.capacity()) {
+    x108_modifierSources.insert(std::lower_bound(x108_modifierSources.begin(), x108_modifierSources.end(), source),
+                                source);
    return true;
  }
+
  return false;
 }