#include "Runtime/Graphics/CPVSVisOctree.hpp"

namespace urde {

CPVSVisOctree CPVSVisOctree::MakePVSVisOctree(const u8* data) {
  CMemoryInStream r(data, 68);
  const zeus::CAABox aabb = zeus::CAABox::ReadBoundingBoxBig(r);
  const u32 numObjects = r.readUint32Big();
  const u32 numLights = r.readUint32Big();
  r.readUint32Big();
  return CPVSVisOctree(aabb, numObjects, numLights, data + r.position());
}

CPVSVisOctree::CPVSVisOctree(const zeus::CAABox& aabb, u32 numObjects, u32 numLights, const u8* c)
: x0_aabb(aabb), x18_numObjects(numObjects), x1c_numLights(numLights), x20_bufferFlag(c != nullptr), x24_octreeData(c) {
  x2c_searchAabb = x0_aabb;
  x20_bufferFlag = 0;
}

static const u32 NumChildTable[] = {0, 2, 2, 4, 2, 4, 4, 8};

u32 CPVSVisOctree::GetNumChildren(u8 byte) const { return NumChildTable[byte & 0x7]; }

u32 CPVSVisOctree::GetChildIndex(const u8*, const zeus::CVector3f&) const { return 0; }

s32 CPVSVisOctree::IterateSearch(u8 nodeData, const zeus::CVector3f& tp) const {
  if (!(nodeData & 0x7))
    return -1; // Leaf node

  zeus::CVector3f newMin = x2c_searchAabb.center();
  zeus::CVector3f newMax;
  bool highFlags[3];

  if (tp.x() > newMin.x()) {
    newMax.x() = x2c_searchAabb.max.x();
    highFlags[0] = true;
  } else {
    newMax.x() = float(newMin.x());
    newMin.x() = float(x2c_searchAabb.min.x());
    highFlags[0] = false;
  }

  if (tp.y() > newMin.y()) {
    newMax.y() = float(x2c_searchAabb.max.y());
    highFlags[1] = true;
  } else {
    newMax.y() = float(newMin.y());
    newMin.y() = float(x2c_searchAabb.min.y());
    highFlags[1] = false;
  }

  if (tp.z() > newMin.z()) {
    newMax.z() = float(x2c_searchAabb.max.z());
    highFlags[2] = true;
  } else {
    newMax.z() = float(newMin.z());
    newMin.z() = float(x2c_searchAabb.min.z());
    highFlags[2] = false;
  }

  u8 axisCounts[2] = {1, 1};
  if (nodeData & 0x1)
    axisCounts[0] = 2;
  if (nodeData & 0x2)
    axisCounts[1] = 2;

  zeus::CAABox& newSearch = const_cast<zeus::CAABox&>(x2c_searchAabb);
  if (nodeData & 0x1) {
    newSearch.min.x() = float(newMin.x());
    newSearch.max.x() = float(newMax.x());
  }
  if (nodeData & 0x2) {
    newSearch.min.y() = float(newMin.y());
    newSearch.max.y() = float(newMax.y());
  }
  if (nodeData & 0x4) {
    newSearch.min.z() = float(newMin.z());
    newSearch.max.z() = float(newMax.z());
  }

  // Branch node - calculate next relative pointer
  return highFlags[0] * bool(nodeData & 0x1) + highFlags[1] * axisCounts[0] * bool(nodeData & 0x2) +
         highFlags[2] * axisCounts[0] * axisCounts[1] * bool(nodeData & 0x4);
}

} // namespace urde