#include "Runtime/AutoMapper/CMapArea.hpp"

#include <array>
#include <cstring>

#include "Runtime/AutoMapper/CMappableObject.hpp"
#include "Runtime/CToken.hpp"
#include "Runtime/GameGlobalObjects.hpp"
#include "Runtime/World/CWorld.hpp"
#include "Runtime/CBasics.hpp"
#include "Runtime/Graphics/CGX.hpp"

namespace metaforce {
constexpr std::array<zeus::CVector3f, 3> MinesPostTransforms{{
    {0.f, 0.f, 200.f},
    {0.f, 0.f, 0.f},
    {0.f, 0.f, -200.f},
}};

constexpr std::array<u8, 42> MinesPostTransformIndices{
    0, // 00 Transport to Tallon Overworld South
    0, // 01 Quarry Access
    0, // 02 Main Quarry
    0, // 03 Waste Disposal
    0, // 04 Save Station Mines A
    0, // 05 Security Access A
    0, // 06 Ore Processing
    0, // 07 Mine Security Station
    0, // 08 Research Access
    0, // 09 Storage Depot B
    0, // 10 Elevator Access A
    0, // 11 Security Access B
    0, // 12 Storage Depot A
    0, // 13 Elite Research
    0, // 14 Elevator A
    1, // 15 Elite Control Access
    1, // 16 Elite Control
    1, // 17 Maintenance Tunnel
    1, // 18 Ventilation Shaft
    2, // 19 Phazon Processing Center
    1, // 20 Omega Research
    2, // 21 Transport Access
    2, // 22 Processing Center Access
    1, // 23 Map Station Mines
    1, // 24 Dynamo Access
    2, // 25 Transport to Magmoor Caverns South
    2, // 26 Elite Quarters
    1, // 27 Central Dynamo
    2, // 28 Elite Quarters Access
    1, // 29 Quarantine Access A
    1, // 30 Save Station Mines B
    2, // 31 Metroid Quarantine B
    1, // 32 Metroid Quarantine A
    2, // 33 Quarantine Access B
    2, // 34 Save Station Mines C
    1, // 35 Elevator Access B
    2, // 36 Fungal Hall B
    1, // 37 Elevator B
    2, // 38 Missile Station Mines
    2, // 39 Phazon Mining Tunnel
    2, // 40 Fungal Hall Access
    2, // 41 Fungal Hall A
};

CMapArea::CMapArea(CInputStream& in, u32 size)
: x0_magic(in.ReadLong())
, x4_version(in.ReadLong())
, x8_(in.ReadLong())
, xc_visibilityMode(EVisMode(in.ReadLong()))
, x10_box(in.Get<zeus::CAABox>())
, x28_mappableObjCount(in.ReadLong())
, x2c_vertexCount(in.ReadLong())
, x30_surfaceCount(in.ReadLong())
, x34_size(size - 52) {
  x44_buf = std::make_unique<u8[]>(x34_size);
  in.ReadBytes(x44_buf.get(), x34_size);
  PostConstruct();
}

void CMapArea::PostConstruct() {
  OPTICK_EVENT();
  x38_moStart = x44_buf.get();
  x3c_vertexStart = x38_moStart + (x28_mappableObjCount * 0x50);
  x40_surfaceStart = x3c_vertexStart + (x2c_vertexCount * 12);

  m_mappableObjects.reserve(x28_mappableObjCount);
  for (u32 i = 0, j = 0; i < x28_mappableObjCount; ++i, j += 0x50) {
    m_mappableObjects.emplace_back(x38_moStart + j).PostConstruct(x44_buf.get());
  }

  u8* tmp = x3c_vertexStart;
  m_verts.reserve(x2c_vertexCount);
  for (u32 i = 0; i < x2c_vertexCount; ++i) {
    float x;
    std::memcpy(&x, tmp, sizeof(float));
    float y;
    std::memcpy(&y, tmp + 4, sizeof(float));
    float z;
    std::memcpy(&z, tmp + 8, sizeof(float));

    m_verts.emplace_back(CBasics::SwapBytes(x), CBasics::SwapBytes(y), CBasics::SwapBytes(z));
    tmp += 12;
  }

  std::vector<u32> index;
  m_surfaces.reserve(x30_surfaceCount);
  for (u32 i = 0, j = 0; i < x30_surfaceCount; ++i, j += 32) {
    m_surfaces.emplace_back(x40_surfaceStart + j).PostConstruct(x44_buf.get(), index);
  }
}

bool CMapArea::GetIsVisibleToAutoMapper(bool worldVis, bool areaVis) const {
  switch (xc_visibilityMode) {
  case EVisMode::Always:
    return true;
  case EVisMode::MapStationOrVisit:
    return worldVis || areaVis;
  case EVisMode::Visit:
    return areaVis;
  case EVisMode::Never:
    return false;
  default:
    return true;
  }
}

zeus::CTransform CMapArea::GetAreaPostTransform(const IWorld& world, TAreaId aid) const {
  if (world.IGetWorldAssetId() == 0xB1AC4D65) // Phazon Mines
  {
    const zeus::CTransform& areaXf = world.IGetAreaAlways(aid)->IGetTM();
    const zeus::CVector3f& postVec = MinesPostTransforms[MinesPostTransformIndices[aid]];
    return zeus::CTransform::Translate(postVec) * areaXf;
  } else {
    return world.IGetAreaAlways(aid)->IGetTM();
  }
}

const zeus::CVector3f& CMapArea::GetAreaPostTranslate(const IWorld& world, TAreaId aid) {
  if (world.IGetWorldAssetId() == 0xB1AC4D65) // Phazon Mines
    return MinesPostTransforms[MinesPostTransformIndices[aid]];
  else
    return zeus::skZero3f;
}

CMapArea::CMapAreaSurface::CMapAreaSurface(const void* surfBuf) {
  CMemoryInStream r(surfBuf, 32, CMemoryInStream::EOwnerShip::NotOwned);
  x0_normal = r.Get<zeus::CVector3f>();
  xc_centroid = r.Get<zeus::CVector3f>();
  x18_surfOffset = reinterpret_cast<const u8*>(uintptr_t(r.ReadLong()));
  x1c_outlineOffset = reinterpret_cast<const u8*>(uintptr_t(r.ReadLong()));
}

void CMapArea::CMapAreaSurface::PostConstruct(const u8* buf, std::vector<u32>& index) {
  x18_surfOffset = buf + reinterpret_cast<uintptr_t>(x18_surfOffset);
  x1c_outlineOffset = buf + reinterpret_cast<uintptr_t>(x1c_outlineOffset);

//  m_primStart = index.size();
  bool start = true;
  {
    CMemoryInStream r(x18_surfOffset, INT_MAX, CMemoryInStream::EOwnerShip::NotOwned);
    u32 primCount = r.ReadLong();
    for (u32 i = 0; i < primCount; ++i) {
      GX::Primitive prim = GX::Primitive(r.ReadLong());
      u32 count = r.ReadLong();
      switch (prim) {
      case GX::Primitive::TRIANGLES: {
        for (u32 v = 0; v < count; v += 3) {
          if (!start) {
            index.push_back(index.back());
            index.push_back(r.ReadUint8());
            index.push_back(index.back());
          } else {
            index.push_back(r.ReadUint8());
            start = false;
          }
          index.push_back(r.ReadUint8());
          index.push_back(r.ReadUint8());
          index.push_back(index.back());
        }
        break;
      }
      case GX::Primitive::TRIANGLESTRIP: {
        if (!start) {
          index.push_back(index.back());
          index.push_back(r.ReadUint8());
          index.push_back(index.back());
        } else {
          index.push_back(r.ReadUint8());
          start = false;
        }
        for (u32 v = 1; v < count; ++v)
          index.push_back(r.ReadUint8());
        if (count & 1)
          index.push_back(index.back());
        break;
      }
      case GX::Primitive::TRIANGLEFAN: {
        u8 firstVert = r.ReadUint8();
        if (!start) {
          index.push_back(index.back());
          index.push_back(r.ReadUint8());
        } else {
          index.push_back(r.ReadUint8());
          index.push_back(index.back());
          start = false;
        }
        for (u32 v = 1; v < count; ++v) {
          index.push_back(firstVert);
          index.push_back(r.ReadUint8());
        }
        break;
      }
      default:
        break;
      }
      u32 pos = r.GetReadPosition();
      while (r.GetReadPosition() != ROUND_UP_4(pos)) {
        r.ReadUint8();
      }
    }
  }
//  m_primCount = index.size() - m_primStart;
}

void CMapArea::CMapAreaSurface::Draw(const zeus::CVector3f* verts, const zeus::CColor& surfColor,
                                     const zeus::CColor& lineColor, float lineWidth, size_t instIdx) {
//  if (instIdx >= m_instances.size()) {
//    return;
//  }
//
//  Instance& instance = m_instances[instIdx];
//
//  if (surfColor.a()) {
//    instance.m_surfacePrims.draw(surfColor, m_primStart, m_primCount);
//  }

  if (lineColor.a()) {
    bool draw2 = lineWidth > 1.f;
    u32 outlineCount = *reinterpret_cast<u32*>(&x1c_outlineOffset);
#if METAFORCE_TARGET_BYTE_ORDER == __ORDER_LITTLE_ENDIAN__
    outlineCount = CBasics::SwapBytes(outlineCount);
#endif

//    std::vector<CLineRenderer>& linePrims = instance.m_linePrims;
//    zeus::CColor color = lineColor;
//    if (draw2)
//      color.a() *= 0.5f;
//    float width = lineWidth;
//
//    auto primIt = linePrims.begin();
//    for (u32 j = 0; j <= u32(draw2); ++j) {
//      CMemoryInStream r(x1c_outlineOffset, INT_MAX, CMemoryInStream::EOwnerShip::NotOwned);
//      r.ReadLong();
//      for (u32 i = 0; i < outlineCount; ++i) {
//        CLineRenderer& prim = *primIt++;
//        prim.Reset();
//        u32 count = r.ReadLong();
//        for (u32 v = 0; v < count; ++v) {
//          u8 idx = r.ReadUint8();
//          prim.AddVertex(verts[idx], color, width);
//        }
//
//        u32 pos = r.GetReadPosition();
//        while (r.GetReadPosition() != ROUND_UP_4(pos)) {
//          r.ReadUint8();
//        }
//        prim.Render();
//      }
//      width -= 1.f;
//    }
  }
}

void CMapArea::CMapAreaSurface::SetupGXMaterial() {
  constexpr std::array vtxDescList{
      GX::VtxDescList{GX::VA_POS, GX::INDEX8},
      GX::VtxDescList{},
  };
  CGX::SetVtxDescv(vtxDescList.data());
  CGX::SetNumChans(1);
  CGX::SetNumTexGens(0);
  CGX::SetNumTevStages(1);
  CGX::SetChanCtrl(CGX::EChannelId::Channel0, false, GX::SRC_REG, GX::SRC_VTX, {}, GX::DF_NONE, GX::AF_NONE);
  CGX::SetTevColorIn(GX::TEVSTAGE0, GX::CC_ZERO, GX::CC_ZERO, GX::CC_ZERO, GX::CC_KONST);
  CGX::SetTevAlphaIn(GX::TEVSTAGE0, GX::CA_ZERO, GX::CA_ZERO, GX::CA_ZERO, GX::CA_KONST);
  CGX::SetTevColorOp(GX::TEVSTAGE0, GX::TEV_ADD, GX::TB_ZERO, GX::CS_SCALE_1, true, GX::TEVPREV);
  CGX::SetTevAlphaOp(GX::TEVSTAGE0, GX::TEV_ADD, GX::TB_ZERO, GX::CS_SCALE_1, true, GX::TEVPREV);
  CGX::SetTevKColorSel(GX::TEVSTAGE0, GX::TEV_KCSEL_K0);
  CGX::SetTevKAlphaSel(GX::TEVSTAGE0, GX::TEV_KASEL_K0_A);
}

CFactoryFnReturn FMapAreaFactory(const SObjectTag& objTag, CInputStream& in, const CVParamTransfer&,
                                 CObjectReference*) {
  u32 size = g_ResFactory->ResourceSize(objTag);
  return TToken<CMapArea>::GetIObjObjectFor(std::make_unique<CMapArea>(in, size));
}

} // namespace metaforce