#include "RendererSectionData.hpp"
#include <array>
#include <glm/gtc/matrix_transform.hpp>
#include "World.hpp"
#include "AssetManager.hpp"
inline const BlockId& GetBlockId(const Vector& pos, const std::array<BlockId, 4096> &blockIdData) {
return blockIdData[pos.y * 256 + pos.z * 16 + pos.x];
}
inline const BlockId& GetBlockId(int x, int y, int z, const std::array<BlockId, 4096> &blockIdData) {
return blockIdData[y * 256 + z * 16 + x];
}
void AddFacesByBlockModel(RendererSectionData &data, const BlockModel &model, const glm::mat4 &transform, unsigned char visibility, unsigned char light, unsigned char skyLight) {
for (const auto &face : model.parsedFaces) {
if (face.visibility != BlockModel::ElementData::FaceDirection::none) {
switch (face.visibility) {
case BlockModel::ElementData::FaceDirection::down:
if (visibility >> 0 & 0x1)
continue;
break;
case BlockModel::ElementData::FaceDirection::up:
if (visibility >> 1 & 0x1)
continue;
break;
case BlockModel::ElementData::FaceDirection::north:
if (visibility >> 2 & 0x1)
continue;
break;
case BlockModel::ElementData::FaceDirection::south:
if (visibility >> 3 & 0x1)
continue;
break;
case BlockModel::ElementData::FaceDirection::west:
if (visibility >> 4 & 0x1)
continue;
break;
case BlockModel::ElementData::FaceDirection::east:
if (visibility >> 5 & 0x1)
continue;
break;
}
}
data.models.push_back(transform * face.transform);
data.textures.push_back(face.texture);
data.textureLayers.push_back(face.layer);
data.colors.push_back(face.color);
data.lights.push_back(glm::vec2(light, skyLight));
}
}
const BlockModel* GetInternalBlockModel(const BlockId& id, std::vector<std::pair<BlockId, const BlockModel *>> &idModels) {
for (const auto& it : idModels) {
if (it.first == id)
return it.second;
}
idModels.push_back(std::make_pair(id, AssetManager::Instance().GetBlockModelByBlockId(id)));
return idModels.back().second;
}
std::array<unsigned char, 4096> GetBlockVisibilityData(const SectionsData §ions, const std::array<BlockId, 4096> &blockIdData, std::vector<std::pair<BlockId, const BlockModel *>> &idModels) {
std::array<unsigned char, 4096> arr;
for (int y = 0; y < 16; y++) {
for (int z = 0; z < 16; z++) {
for (int x = 0; x < 16; x++) {
unsigned char value = 0;
BlockId blockIdDown;
BlockId blockIdUp;
BlockId blockIdNorth;
BlockId blockIdSouth;
BlockId blockIdWest;
BlockId blockIdEast;
switch (y) {
case 0:
blockIdDown = sections.bottom.GetBlockId(Vector(x, 15, z));
blockIdUp = GetBlockId(x, 1, z, blockIdData);
break;
case 15:
blockIdDown = GetBlockId(x, 14, z, blockIdData);
blockIdUp = sections.top.GetBlockId(Vector(x, 0, z));
break;
default:
blockIdDown = GetBlockId(x, y - 1, z, blockIdData);
blockIdUp = GetBlockId(x, y + 1, z, blockIdData);
break;
}
switch (z) {
case 0:
blockIdNorth = GetBlockId(x, y, 1, blockIdData);
blockIdSouth = sections.south.GetBlockId(Vector(x, y, 15));
break;
case 15:
blockIdNorth = sections.north.GetBlockId(Vector(x, y, 0));
blockIdSouth = GetBlockId(x, y, 14, blockIdData);
break;
default:
blockIdNorth = GetBlockId(x, y, z + 1, blockIdData);
blockIdSouth = GetBlockId(x, y, z - 1, blockIdData);
break;
}
switch (x) {
case 0:
blockIdWest = GetBlockId(1, y, z, blockIdData);
blockIdEast = sections.east.GetBlockId(Vector(15, y, z));
break;
case 15:
blockIdWest = sections.west.GetBlockId(Vector(0, y, z));
blockIdEast = GetBlockId(14, y, z, blockIdData);
break;
default:
blockIdWest = GetBlockId(x + 1, y, z, blockIdData);
blockIdEast = GetBlockId(x - 1, y, z, blockIdData);
break;
}
auto blockModelDown = GetInternalBlockModel(blockIdDown, idModels);
auto blockModelUp = GetInternalBlockModel(blockIdUp, idModels);
auto blockModelNorth = GetInternalBlockModel(blockIdNorth, idModels);
auto blockModelSouth = GetInternalBlockModel(blockIdSouth, idModels);
auto blockModelWest = GetInternalBlockModel(blockIdWest, idModels);
auto blockModelEast = GetInternalBlockModel(blockIdEast, idModels);
value |= (blockIdDown.id != 0 && blockModelDown && blockModelDown->IsBlock) << 0;
value |= (blockIdUp.id != 0 && blockModelUp && blockModelUp->IsBlock) << 1;
value |= (blockIdNorth.id != 0 && blockModelNorth && blockModelNorth->IsBlock) << 2;
value |= (blockIdSouth.id != 0 && blockModelSouth && blockModelSouth->IsBlock) << 3;
value |= (blockIdWest.id != 0 && blockModelWest && blockModelWest->IsBlock) << 4;
value |= (blockIdEast.id != 0 && blockModelEast && blockModelEast->IsBlock) << 5;
arr[y * 256 + z * 16 + x] = value;
}
}
}
return arr;
}
std::array<BlockId, 4096> SetBlockIdData(const SectionsData §ions) {
std::array<BlockId, 4096> blockIdData;
for (int y = 0; y < 16; y++) {
for (int z = 0; z < 16; z++) {
for (int x = 0; x < 16; x++) {
blockIdData[y * 256 + z * 16 + x] = sections.section.GetBlockId(Vector(x, y, z));
}
}
}
return blockIdData;
}
RendererSectionData ParseSection(const SectionsData §ions)
{
RendererSectionData data;
std::vector<std::pair<BlockId, const BlockModel *>> idModels;
std::array<BlockId, 4096> blockIdData = SetBlockIdData(sections);
std::array<unsigned char, 4096> blockVisibility = GetBlockVisibilityData(sections, blockIdData, idModels);
std::string textureName;
data.hash = sections.section.GetHash();
data.sectionPos = sections.section.GetPosition();
glm::mat4 baseOffset = glm::translate(glm::mat4(), (sections.section.GetPosition() * 16).glm()), transform;
for (int y = 0; y < 16; y++) {
for (int z = 0; z < 16; z++) {
for (int x = 0; x < 16; x++) {
BlockId block = GetBlockId(x, y, z, blockIdData);
if (block.id == 0)
continue;
Vector vec(x, y, z);
transform = glm::translate(baseOffset, vec.glm());
unsigned char light = sections.GetLight(vec);
unsigned char skyLight = sections.GetSkyLight(vec);
const BlockModel* model = GetInternalBlockModel(block, idModels);
AddFacesByBlockModel(data, *model, transform, blockVisibility[y * 256 + z * 16 + x], light, skyLight);
}
}
}
data.textures.shrink_to_fit();
data.textureLayers.shrink_to_fit();
data.models.shrink_to_fit();
data.colors.shrink_to_fit();
return data;
}
unsigned char SectionsData::GetLight(const Vector & pos) const {
static const Vector directions[] = {
Vector(0,0,0),
Vector(1,0,0),
Vector(-1,0,0),
Vector(0,1,0),
Vector(0,-1,0),
Vector(0,0,1),
Vector(0,0,-1),
};
unsigned char value = 0;
for (const Vector &dir : directions) {
Vector vec = pos + dir;
unsigned char dirValue = 0;
if (vec.x < 0 || vec.x > 15 || vec.y < 0 || vec.y > 15 || vec.z < 0 || vec.z > 15) {
if (vec.x < 0)
dirValue = east.GetBlockLight(Vector(15, vec.y, vec.z));
if (vec.x > 15)
dirValue = west.GetBlockLight(Vector(0, vec.y, vec.z));
if (vec.y < 0)
dirValue = bottom.GetBlockLight(Vector(vec.x, 15, vec.z));
if (vec.y > 15)
dirValue = top.GetBlockLight(Vector(vec.x, 0, vec.z));
if (vec.z < 0)
dirValue = south.GetBlockLight(Vector(vec.x, vec.y, 15));
if (vec.z > 15)
dirValue = north.GetBlockLight(Vector(vec.x, vec.y, 0));
}
else
dirValue = section.GetBlockLight(vec);
value = _max(value, dirValue);
}
return value;
}
unsigned char SectionsData::GetSkyLight(const Vector & pos) const {
static const Vector directions[] = {
Vector(0,0,0),
Vector(1,0,0),
Vector(-1,0,0),
Vector(0,1,0),
Vector(0,-1,0),
Vector(0,0,1),
Vector(0,0,-1),
};
unsigned char value = 0;
for (const Vector &dir : directions) {
Vector vec = pos + dir;
unsigned char dirValue = 0;
if (vec.x < 0 || vec.x > 15 || vec.y < 0 || vec.y > 15 || vec.z < 0 || vec.z > 15) {
if (vec.x < 0)
dirValue = east.GetBlockSkyLight(Vector(15, vec.y, vec.z));
if (vec.x > 15)
dirValue = west.GetBlockSkyLight(Vector(0, vec.y, vec.z));
if (vec.y < 0)
dirValue = bottom.GetBlockSkyLight(Vector(vec.x, 15, vec.z));
if (vec.y > 15)
dirValue = top.GetBlockSkyLight(Vector(vec.x, 0, vec.z));
if (vec.z < 0)
dirValue = south.GetBlockSkyLight(Vector(vec.x, vec.y, 15));
if (vec.z > 15)
dirValue = north.GetBlockSkyLight(Vector(vec.x, vec.y, 0));
}
else
dirValue = section.GetBlockSkyLight(vec);
value = _max(value, dirValue);
}
return value;
}