#include "chunk.hpp"
+#include "generator.hpp"
+
#include <limits>
#include <glm/gtx/transform.hpp>
+namespace {
+
+blank::Model::Buffer buf;
+
+}
+
namespace blank {
Chunk::Chunk(const BlockTypeRegistry &types)
bool Chunk::Intersection(
const Ray &ray,
const glm::mat4 &M,
- int *blkid,
- float *dist,
- glm::vec3 *normal) const {
- { // rough check
- if (!blank::Intersection(ray, Bounds(), M)) {
- return false;
- }
- }
-
- if (!blkid && !dist && !normal) {
- return true;
- }
-
+ int &blkid,
+ float &dist,
+ glm::vec3 &normal
+) const {
// TODO: should be possible to heavily optimize this
int id = 0;
- int closest_id = -1;
- float closest_dist = std::numeric_limits<float>::infinity();
- glm::vec3 closest_normal(0, 1, 0);
+ blkid = -1;
+ dist = std::numeric_limits<float>::infinity();
for (int z = 0; z < Depth(); ++z) {
for (int y = 0; y < Height(); ++y) {
for (int x = 0; x < Width(); ++x, ++id) {
}
float cur_dist;
glm::vec3 cur_norm;
- Block::Pos pos(float(x) + 0.5f, float(y) + 0.5f, float(z) + 0.5f);
- if (Type(blocks[id]).shape->Intersects(ray, glm::translate(M, pos), cur_dist, cur_norm)) {
- if (cur_dist < closest_dist) {
- closest_id = id;
- closest_dist = cur_dist;
- closest_normal = cur_norm;
+ if (Type(blocks[id]).shape->Intersects(ray, M * ToTransform(id), cur_dist, cur_norm)) {
+ if (cur_dist < dist) {
+ blkid = id;
+ dist = cur_dist;
+ normal = cur_norm;
}
}
}
}
}
- if (closest_id < 0) {
+ if (blkid < 0) {
return false;
+ } else {
+ normal = glm::vec3(BlockAt(blkid).Transform() * glm::vec4(normal, 0.0f));
+ return true;
}
-
- if (blkid) {
- *blkid = closest_id;
- }
- if (dist) {
- *dist = closest_dist;
- }
- if (normal) {
- *normal = closest_normal;
- }
- return true;
}
void Chunk::Position(const Pos &pos) {
}
+void Chunk::CheckUpdate() {
+ if (dirty) {
+ Update();
+ }
+}
+
void Chunk::Update() {
int vtx_count = 0, idx_count = 0;
for (const auto &block : blocks) {
vtx_count += shape->VertexCount();
idx_count += shape->VertexIndexCount();
}
- model.Clear();
- model.Reserve(vtx_count, idx_count);
+ buf.Clear();
+ buf.Reserve(vtx_count, idx_count);
Model::Index vtx_counter = 0;
for (size_t i = 0; i < Size(); ++i) {
+ if (Obstructed(i)) continue;
+
const BlockType &type = Type(blocks[i]);
- type.FillModel(model, ToCoords(i), vtx_counter);
+ type.FillModel(buf, ToTransform(i), vtx_counter);
vtx_counter += type.shape->VertexCount();
}
- model.Invalidate();
+ model.Update(buf);
dirty = false;
}
+bool Chunk::Obstructed(int idx) const {
+ if (IsBorder(idx)) return false;
+
+ // not checking neighbor visibility here, so all
+ // invisible blocks must have their fill set to 6x false
+ // (the default, so should be okay)
+
+ const Block &right = blocks[idx + 1];
+ if (!Type(right).FaceFilled(right, Block::FACE_LEFT)) return false;
+
+ const Block &left = blocks[idx - 1];
+ if (!Type(left).FaceFilled(left, Block::FACE_RIGHT)) return false;
+
+ const Block &up = blocks[idx + Width()];
+ if (!Type(up).FaceFilled(up, Block::FACE_DOWN)) return false;
+
+ const Block &down = blocks[idx - Width()];
+ if (!Type(down).FaceFilled(down, Block::FACE_UP)) return false;
+
+ const Block &front = blocks[idx + Width() * Height()];
+ if (!Type(front).FaceFilled(front, Block::FACE_BACK)) return false;
+
+ const Block &back = blocks[idx - Width() * Height()];
+ if (!Type(back).FaceFilled(back, Block::FACE_FRONT)) return false;
+
+ return true;
+}
+
+glm::mat4 Chunk::ToTransform(int idx) const {
+ return glm::translate(glm::mat4(1.0f), ToCoords(idx)) * blocks[idx].Transform();
+}
+
+
+ChunkLoader::ChunkLoader(const BlockTypeRegistry ®, const Generator &gen)
+: base(0, 0, 0)
+, reg(reg)
+, gen(gen)
+, loaded()
+, to_generate()
+, to_free()
+, load_dist(4)
+, unload_dist(5) {
+
+}
+
+namespace {
+
+struct ChunkLess {
+
+ explicit ChunkLess(const Chunk::Pos &base)
+ : base(base) { }
+
+ bool operator ()(const Chunk::Pos &a, const Chunk::Pos &b) const {
+ Chunk::Pos da(base - a);
+ Chunk::Pos db(base - b);
+ return
+ da.x * da.x + da.y * da.y + da.z * da.z <
+ db.x * db.x + db.y * db.y + db.z * db.z;
+ }
+
+ Chunk::Pos base;
+
+};
+
+}
+
+void ChunkLoader::Generate(const Chunk::Pos &from, const Chunk::Pos &to) {
+ for (int z = from.z; z < to.z; ++z) {
+ for (int y = from.y; y < to.y; ++y) {
+ for (int x = from.x; x < to.x; ++x) {
+ Chunk::Pos pos(x, y, z);
+ if (Known(pos)) {
+ continue;
+ } else if (x == 0 && y == 0 && z == 0) {
+ loaded.emplace_back(reg);
+ loaded.back().Position(pos);
+ gen(loaded.back());
+
+ // orientation testing
+ // for (int i = 0; i < Block::FACE_COUNT; ++i) {
+ // for (int j = 0; j < Block::TURN_COUNT; ++j) {
+ // loaded.back().BlockAt(512 * j + 2 * i) = Block(3 * (j + 1), Block::Face(i), Block::Turn(j));
+ // }
+ // }
+ // loaded.back().Invalidate();
+ // loaded.back().CheckUpdate();
+ } else {
+ to_generate.emplace_back(pos);
+ }
+ }
+ }
+ }
+ to_generate.sort(ChunkLess(base));
+}
+
+Chunk *ChunkLoader::Loaded(const Chunk::Pos &pos) {
+ for (Chunk &chunk : loaded) {
+ if (chunk.Position() == pos) {
+ return &chunk;
+ }
+ }
+ return nullptr;
+}
+
+bool ChunkLoader::Queued(const Chunk::Pos &pos) {
+ for (const Chunk::Pos &chunk : to_generate) {
+ if (chunk == pos) {
+ return true;
+ }
+ }
+ return nullptr;
+}
+
+bool ChunkLoader::Known(const Chunk::Pos &pos) {
+ if (Loaded(pos)) return true;
+ return Queued(pos);
+}
+
+Chunk &ChunkLoader::ForceLoad(const Chunk::Pos &pos) {
+ Chunk *chunk = Loaded(pos);
+ if (chunk) {
+ return *chunk;
+ }
+
+ for (auto iter(to_generate.begin()), end(to_generate.end()); iter != end; ++iter) {
+ if (*iter == pos) {
+ to_generate.erase(iter);
+ break;
+ }
+ }
+
+ loaded.emplace_back(reg);
+ loaded.back().Position(pos);
+ gen(loaded.back());
+ return loaded.back();
+}
+
+void ChunkLoader::Rebase(const Chunk::Pos &new_base) {
+ if (new_base == base) {
+ return;
+ }
+ base = new_base;
+
+ // unload far away chunks
+ for (auto iter(loaded.begin()), end(loaded.end()); iter != end;) {
+ if (std::abs(base.x - iter->Position().x) > unload_dist
+ || std::abs(base.y - iter->Position().y) > unload_dist
+ || std::abs(base.z - iter->Position().z) > unload_dist) {
+ auto saved = iter;
+ ++iter;
+ to_free.splice(to_free.end(), loaded, saved);
+ } else {
+ ++iter;
+ }
+ }
+ // abort far away queued chunks
+ for (auto iter(to_generate.begin()), end(to_generate.end()); iter != end;) {
+ if (std::abs(base.x - iter->x) > unload_dist
+ || std::abs(base.y - iter->y) > unload_dist
+ || std::abs(base.z - iter->z) > unload_dist) {
+ iter = to_generate.erase(iter);
+ } else {
+ ++iter;
+ }
+ }
+ // add missing new chunks
+ const Chunk::Pos offset(load_dist, load_dist, load_dist);
+ Generate(base - offset, base + offset);
+}
+
+void ChunkLoader::Update() {
+ bool reused = false;
+ if (!to_generate.empty()) {
+ Chunk::Pos pos(to_generate.front());
+
+ for (auto iter(to_free.begin()), end(to_free.end()); iter != end; ++iter) {
+ if (iter->Position() == pos) {
+ loaded.splice(loaded.end(), to_free, iter);
+ reused = true;
+ break;
+ }
+ }
+
+ if (!reused) {
+ if (to_free.empty()) {
+ loaded.emplace_back(reg);
+ } else {
+ loaded.splice(loaded.end(), to_free, to_free.begin());
+ reused = true;
+ }
+ loaded.back().Position(pos);
+ gen(loaded.back());
+ }
+ to_generate.pop_front();
+ }
+
+ if (!reused && !to_free.empty()) {
+ to_free.pop_front();
+ }
+}
}