Refactor Secondary Threads #12
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@ -23,6 +23,7 @@
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||||||
// int32_t is fine, since i'm limiting the coordinate to only use up to ten bits (1023). There's actually two spare bits
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// int32_t is fine, since i'm limiting the coordinate to only use up to ten bits (1023). There's actually two spare bits
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typedef int32_t chunk_index_t;
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typedef int32_t chunk_index_t;
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typedef int16_t chunk_intcoord_t;
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typedef int16_t chunk_intcoord_t;
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typedef uint16_t chunk_state_t;
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namespace Chunk
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namespace Chunk
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{
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{
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@ -30,13 +31,16 @@ namespace Chunk
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chunk_index_t calculateIndex(chunk_intcoord_t i, chunk_intcoord_t j, chunk_intcoord_t k);
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chunk_index_t calculateIndex(chunk_intcoord_t i, chunk_intcoord_t j, chunk_intcoord_t k);
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chunk_index_t calculateIndex(glm::vec3 pos);
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chunk_index_t calculateIndex(glm::vec3 pos);
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constexpr uint8_t CHUNK_STATE_GENERATED = 1;
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constexpr chunk_state_t CHUNK_STATE_GENERATED = 1;
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constexpr uint8_t CHUNK_STATE_MESHED = 2;
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constexpr chunk_state_t CHUNK_STATE_MESHED = 2;
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constexpr uint8_t CHUNK_STATE_MESH_LOADED = 4;
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constexpr chunk_state_t CHUNK_STATE_MESH_LOADED = 4;
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constexpr uint8_t CHUNK_STATE_LOADED = 8;
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constexpr chunk_state_t CHUNK_STATE_LOADED = 8;
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constexpr uint8_t CHUNK_STATE_OUTOFVISION = 16;
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constexpr chunk_state_t CHUNK_STATE_OUTOFVISION = 16;
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constexpr uint8_t CHUNK_STATE_UNLOADED = 32;
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constexpr chunk_state_t CHUNK_STATE_UNLOADED = 32;
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constexpr uint8_t CHUNK_STATE_EMPTY = 64;
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constexpr chunk_state_t CHUNK_STATE_EMPTY = 64;
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constexpr chunk_state_t CHUNK_STATE_IN_GENERATION_QUEUE = 128;
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constexpr chunk_state_t CHUNK_STATE_IN_MESHING_QUEUE = 256;
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constexpr chunk_state_t CHUNK_STATE_IN_DELETING_QUEUE = 512;
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int coord3DTo1D(int x, int y, int z);
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int coord3DTo1D(int x, int y, int z);
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@ -52,9 +56,14 @@ namespace Chunk
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void deleteBuffers();
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void deleteBuffers();
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glm::vec3 getPosition() { return this->position; }
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glm::vec3 getPosition() { return this->position; }
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uint8_t getTotalState() { return this->state; }
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void setState(chunk_state_t nstate, bool value);
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bool getState(uint8_t n) { return (this->state & n) == n; }
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bool getState(chunk_state_t n) { return (this->state & n) == n; }
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void setState(uint8_t nstate, bool value);
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bool isFree(){ return !(
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this->getState(CHUNK_STATE_IN_GENERATION_QUEUE) ||
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this->getState(CHUNK_STATE_IN_MESHING_QUEUE) ||
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this->getState(CHUNK_STATE_IN_DELETING_QUEUE)
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); }
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chunk_state_t getTotalState() { return this->state; }
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void setBlock(Block b, int x, int y, int z);
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void setBlock(Block b, int x, int y, int z);
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void setBlocks(int start, int end, Block b);
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void setBlocks(int start, int end, Block b);
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@ -71,8 +80,7 @@ namespace Chunk
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glm::vec3 position{};
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glm::vec3 position{};
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IntervalMap<Block> blocks{};
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IntervalMap<Block> blocks{};
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std::atomic_uint8_t state{0};
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std::atomic<chunk_state_t> state{0};
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chunk_index_t index;
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chunk_index_t index;
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};
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};
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};
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};
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@ -30,11 +30,10 @@ namespace chunkmanager
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typedef oneapi::tbb::concurrent_priority_queue<ChunkPQEntry, compare_f> ChunkPriorityQueue;
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typedef oneapi::tbb::concurrent_priority_queue<ChunkPQEntry, compare_f> ChunkPriorityQueue;
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void init();
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void init();
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void blockpick(bool place);
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//void blockpick(bool place);
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void stop();
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void stop();
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void destroy();
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void destroy();
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oneapi::tbb::concurrent_queue<Chunk::Chunk*>& getDeleteVector();
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std::array<std::array<chunk_intcoord_t, 3>, chunks_volume>& getChunksIndices();
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std::array<std::array<chunk_intcoord_t, 3>, chunks_volume>& getChunksIndices();
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Block getBlockAtPos(int x, int y, int z);
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Block getBlockAtPos(int x, int y, int z);
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void update();
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void update();
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@ -69,7 +69,7 @@ namespace Chunk
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this->blocks.insert(start < 0 ? 0 : start, end >= CHUNK_VOLUME ? CHUNK_VOLUME : end, b);
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this->blocks.insert(start < 0 ? 0 : start, end >= CHUNK_VOLUME ? CHUNK_VOLUME : end, b);
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}
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}
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void Chunk::setState(uint8_t nstate, bool value)
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void Chunk::setState(chunk_state_t nstate, bool value)
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{
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{
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if (value)
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if (value)
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this->state.fetch_or(nstate);
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this->state.fetch_or(nstate);
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@ -8,6 +8,8 @@
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#include <glm/glm.hpp>
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#include <glm/glm.hpp>
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#include <glm/gtc/matrix_transform.hpp>
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#include <glm/gtc/matrix_transform.hpp>
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#include <oneapi/tbb/parallel_for.h>
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#include "block.hpp"
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#include "block.hpp"
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#include "chunk.hpp"
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#include "chunk.hpp"
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#include "chunkgenerator.hpp"
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#include "chunkgenerator.hpp"
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@ -29,6 +31,7 @@ namespace chunkmanager
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/* Multithreading */
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/* Multithreading */
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std::atomic_bool should_run;
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std::atomic_bool should_run;
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std::thread gen_thread, mesh_thread, update_thread;
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std::thread gen_thread, mesh_thread, update_thread;
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// Queue of chunks to be generated
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// Queue of chunks to be generated
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ChunkPriorityQueue chunks_to_generate_queue;
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ChunkPriorityQueue chunks_to_generate_queue;
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// Queue of chunks to be meshed
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// Queue of chunks to be meshed
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@ -66,7 +69,11 @@ namespace chunkmanager
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void generate(){
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void generate(){
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while(should_run){
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while(should_run){
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ChunkPQEntry entry;
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ChunkPQEntry entry;
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if(chunks_to_generate_queue.try_pop(entry)) generateChunk(entry.first);
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if(chunks_to_generate_queue.try_pop(entry)){
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Chunk::Chunk* chunk = entry.first;
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generateChunk(chunk);
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chunk->setState(Chunk::CHUNK_STATE_IN_GENERATION_QUEUE, false);
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}
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}
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}
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chunks_to_generate_queue.clear();
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chunks_to_generate_queue.clear();
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}
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}
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@ -77,78 +84,160 @@ namespace chunkmanager
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ChunkPQEntry entry;
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ChunkPQEntry entry;
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if(chunks_to_mesh_queue.try_pop(entry)){
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if(chunks_to_mesh_queue.try_pop(entry)){
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Chunk::Chunk* chunk = entry.first;
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Chunk::Chunk* chunk = entry.first;
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if(chunk->getState(Chunk::CHUNK_STATE_GENERATED)){
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chunkmesher::mesh(chunk);
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chunkmesher::mesh(chunk);
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renderer::getChunksToRender().insert(chunk);
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renderer::getChunksToRender().insert(chunk);
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}
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chunk->setState(Chunk::CHUNK_STATE_IN_MESHING_QUEUE, false);
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}
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}
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}
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}
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chunks_to_mesh_queue.clear();
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chunks_to_mesh_queue.clear();
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}
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}
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oneapi::tbb::concurrent_queue<Chunk::Chunk*> chunks_todelete;
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oneapi::tbb::concurrent_queue<chunk_index_t> chunks_todelete;
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int nUnloaded{0};
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void update(){
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void update(){
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while(should_run) {
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while(should_run) {
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int chunkX=static_cast<int>(theCamera.getAtomicPosX() / CHUNK_SIZE);
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/* Setup variables for the whole loop */
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int chunkY=static_cast<int>(theCamera.getAtomicPosY() / CHUNK_SIZE);
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// Atomic is needed by parallel_for
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int chunkZ=static_cast<int>(theCamera.getAtomicPosZ() / CHUNK_SIZE);
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std::atomic_int nUnloaded{0}, nMarkUnload{0}, nExplored{0}, nMeshed{0}, nGenerated{0};
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std::atomic_int chunkX=static_cast<int>(theCamera.getAtomicPosX() / CHUNK_SIZE);
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std::atomic_int chunkY=static_cast<int>(theCamera.getAtomicPosY() / CHUNK_SIZE);
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std::atomic_int chunkZ=static_cast<int>(theCamera.getAtomicPosZ() / CHUNK_SIZE);
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// Update other chunks
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/* Delete old chunks */
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// In my head it makes sense to first delete old chunks, then create new ones
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// I think it's easier for memory allocator to re-use the memory that was freed just
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// before, but this isn't backed be any evidence and I might be wrong. Anyway this way
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// works fine so I'm gonna keep it.
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int i;
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ChunkTable::accessor a;
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while(chunks_todelete.try_pop(i)){
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const int index = i;
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if(chunks.find(a, index)){
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Chunk::Chunk* c = a->second;
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// Use the accessor to erase the element
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// Using the key doesn't work
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if(chunks.erase(a)){
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nUnloaded++;
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delete c;
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} else {
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c->setState(Chunk::CHUNK_STATE_IN_DELETING_QUEUE, false);
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std::cout << "failed to delete " << index << std::endl;
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}
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} else std::cout << "no such element found to delete\n";
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}
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/* Create new chunks around the player */
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for(int i = 0; i < chunks_volume; i++) {
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for(int i = 0; i < chunks_volume; i++) {
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const chunk_intcoord_t x = chunks_indices[i][0] + chunkX;
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const chunk_intcoord_t x = chunks_indices[i][0] + chunkX;
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const chunk_intcoord_t y = chunks_indices[i][1] + chunkY;
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const chunk_intcoord_t y = chunks_indices[i][1] + chunkY;
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const chunk_intcoord_t z = chunks_indices[i][2] + chunkZ;
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const chunk_intcoord_t z = chunks_indices[i][2] + chunkZ;
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if(x < 0 || y < 0 || z < 0 || x > 1023 || y > 1023 || z > 1023) continue;
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if(x < 0 || y < 0 || z < 0 || x > 1023 || y > 1023 || z > 1023) continue;
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nExplored++;
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const chunk_index_t index = Chunk::calculateIndex(x, y, z);
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const chunk_index_t index = Chunk::calculateIndex(x, y, z);
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ChunkTable::accessor a;
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if(!chunks.find(a, index)) chunks.emplace(a, std::make_pair(index, new
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Chunk::Chunk(glm::vec3(x,y,z))));
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}
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ChunkTable::accessor a, a1, a2, b1, b2, c1, c2;
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/* Update all the chunks */
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if(!chunks.find(a, index)) chunks.emplace(a, std::make_pair(index, new Chunk::Chunk(glm::vec3(x,y,z))));
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oneapi::tbb::parallel_for(chunks.range(), [&](ChunkTable::range_type &r){
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for(ChunkTable::iterator a = r.begin(); a != r.end(); a++){
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Chunk::Chunk* c = a->second;
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int x = c->getPosition().x;
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int y = c->getPosition().y;
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int z = c->getPosition().z;
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int distx = x - chunkX;
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int disty = y - chunkY;
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int distz = z - chunkZ;
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// Local variables avoid continously having to call atomic variables
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int gen{0}, mesh{0}, unload{0};
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if(! (a->second->getState(Chunk::CHUNK_STATE_GENERATED))) {
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chunks_to_generate_queue.push(std::make_pair(a->second, GENERATION_PRIORITY_NORMAL));
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}else if(! (a->second->getState(Chunk::CHUNK_STATE_MESHED))){
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if(
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if(
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(x + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x+1, y, z)) &&
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distx >= -RENDER_DISTANCE && distx < RENDER_DISTANCE &&
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disty >= -RENDER_DISTANCE && disty < RENDER_DISTANCE &&
|
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distz >= -RENDER_DISTANCE && distz < RENDER_DISTANCE
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){
|
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// If within distance
|
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// Reset out-of-view flags
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c->setState(Chunk::CHUNK_STATE_OUTOFVISION, false);
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c->setState(Chunk::CHUNK_STATE_UNLOADED, false);
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|
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// If not yet generated
|
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if(!c->getState(Chunk::CHUNK_STATE_GENERATED)){
|
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if(c->isFree()){
|
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// Generate
|
||||||
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|
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// Mark as present in the queue before sending to avoid strange
|
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// a chunk being marked as in the queue after it was already
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// processed
|
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c->setState(Chunk::CHUNK_STATE_IN_GENERATION_QUEUE, true);
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chunks_to_generate_queue.push(std::make_pair(c, GENERATION_PRIORITY_NORMAL));
|
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}
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}else{
|
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gen++;
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// If generated but not yet meshed
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if(!c->getState(Chunk::CHUNK_STATE_MESHED)){
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ChunkTable::accessor a1;
|
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|
||||||
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// Checking if nearby chunks have been generated allows for seamless
|
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// borders between chunks
|
||||||
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if(c->isFree() &&
|
||||||
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(distx+1 >= RENDER_DISTANCE || x + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x+1, y, z)) &&
|
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a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
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(x - 1 < 0|| (chunks.find(a1, Chunk::calculateIndex(x-1, y, z)) &&
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(distx-1 < -RENDER_DISTANCE || x - 1 < 0 || (chunks.find(a1, Chunk::calculateIndex(x-1, y, z)) &&
|
||||||
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
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a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
||||||
(y + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x, y+1, z)) &&
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(disty+1 >= RENDER_DISTANCE || y + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x, y+1, z)) &&
|
||||||
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
||||||
(y - 1 < 0|| (chunks.find(a1, Chunk::calculateIndex(x, y-1, z)) &&
|
(disty-1 < -RENDER_DISTANCE || y - 1 < 0|| (chunks.find(a1, Chunk::calculateIndex(x, y-1, z)) &&
|
||||||
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
||||||
(z + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x, y, z+1)) &&
|
(distz+1 >= RENDER_DISTANCE || z + 1 > 1023 || (chunks.find(a1, Chunk::calculateIndex(x, y, z+1)) &&
|
||||||
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
a1->second->getState(Chunk::CHUNK_STATE_GENERATED))) &&
|
||||||
(z - 1 < 0|| (chunks.find(a1, Chunk::calculateIndex(x, y, z-1)) &&
|
(distz-1 < -RENDER_DISTANCE || z - 1 < 0|| (chunks.find(a1, Chunk::calculateIndex(x, y, z-1)) &&
|
||||||
a1->second->getState(Chunk::CHUNK_STATE_GENERATED)))
|
a1->second->getState(Chunk::CHUNK_STATE_GENERATED)))
|
||||||
)
|
)
|
||||||
chunks_to_mesh_queue.push(std::make_pair(a->second, MESHING_PRIORITY_NORMAL));
|
{
|
||||||
|
// Mesh
|
||||||
|
|
||||||
|
// Mark as present in the queue before sending to avoid strange
|
||||||
|
// a chunk being marked as in the queue after it was already
|
||||||
|
// processed
|
||||||
|
c->setState(Chunk::CHUNK_STATE_IN_MESHING_QUEUE, true);
|
||||||
|
chunks_to_mesh_queue.push(std::make_pair(c, MESHING_PRIORITY_NORMAL));
|
||||||
|
}
|
||||||
|
}else mesh++;
|
||||||
}
|
}
|
||||||
|
|
||||||
a.release();
|
}else{
|
||||||
}
|
// If not within distance
|
||||||
|
if(c->getState(Chunk::CHUNK_STATE_OUTOFVISION)){
|
||||||
debug::window::set_parameter("update_chunks_total", (int) (chunks.size()));
|
// If enough time has passed, set to be deleted
|
||||||
debug::window::set_parameter("update_chunks_bucket", (int) (chunks.max_size()));
|
if(c->isFree() && glfwGetTime() - c->unload_timer >= UNLOAD_TIMEOUT){
|
||||||
|
c->setState(Chunk::CHUNK_STATE_IN_DELETING_QUEUE, true);
|
||||||
Chunk::Chunk* n;
|
chunks_todelete.push(c->getIndex());
|
||||||
nUnloaded = 0;
|
unload++;
|
||||||
while(chunks_todelete.try_pop(n)){
|
|
||||||
chunk_intcoord_t x = static_cast<chunk_intcoord_t>(n->getPosition().x);
|
|
||||||
chunk_intcoord_t y = static_cast<chunk_intcoord_t>(n->getPosition().y);
|
|
||||||
chunk_intcoord_t z = static_cast<chunk_intcoord_t>(n->getPosition().z);
|
|
||||||
if(x > 1023 || y > 1023 || z > 1023) continue;
|
|
||||||
const uint32_t index = Chunk::calculateIndex(x, y, z);
|
|
||||||
|
|
||||||
chunks.erase(index);
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|
||||||
//delete n;
|
|
||||||
nUnloaded++;
|
|
||||||
}
|
}
|
||||||
|
}else{
|
||||||
|
// Mark as out of view, and start waiting time
|
||||||
|
c->setState(Chunk::CHUNK_STATE_OUTOFVISION, true);
|
||||||
|
c->setState(Chunk::CHUNK_STATE_UNLOADED, false);
|
||||||
|
c->unload_timer = glfwGetTime();
|
||||||
|
}
|
||||||
|
}
|
||||||
|
|
||||||
|
// Update atomic variables only once at the end
|
||||||
|
nGenerated += gen;
|
||||||
|
nMeshed += mesh;
|
||||||
|
nMarkUnload += unload;
|
||||||
|
}
|
||||||
|
});
|
||||||
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
oneapi::tbb::concurrent_queue<Chunk::Chunk*>& getDeleteVector(){ return chunks_todelete; }
|
|
||||||
std::array<std::array<chunk_intcoord_t, 3>, chunks_volume>& getChunksIndices(){ return chunks_indices; }
|
std::array<std::array<chunk_intcoord_t, 3>, chunks_volume>& getChunksIndices(){ return chunks_indices; }
|
||||||
|
|
||||||
void stop() {
|
void stop() {
|
||||||
|
@ -164,12 +253,13 @@ namespace chunkmanager
|
||||||
}
|
}
|
||||||
|
|
||||||
void destroy(){
|
void destroy(){
|
||||||
/*for(const auto& n : chunks){
|
for(const auto& n : chunks){
|
||||||
delete n.second;
|
delete n.second;
|
||||||
}*/
|
}
|
||||||
|
chunks.clear();
|
||||||
}
|
}
|
||||||
|
|
||||||
void blockpick(bool place){
|
/*void blockpick(bool place){
|
||||||
// cast a ray from the camera in the direction pointed by the camera itself
|
// cast a ray from the camera in the direction pointed by the camera itself
|
||||||
glm::vec3 pos = glm::vec3(theCamera.getAtomicPosX(), theCamera.getAtomicPosY(),
|
glm::vec3 pos = glm::vec3(theCamera.getAtomicPosX(), theCamera.getAtomicPosY(),
|
||||||
theCamera.getAtomicPosZ());
|
theCamera.getAtomicPosZ());
|
||||||
|
@ -263,7 +353,7 @@ namespace chunkmanager
|
||||||
break;
|
break;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
}
|
}*/
|
||||||
|
|
||||||
Block getBlockAtPos(int x, int y, int z){
|
Block getBlockAtPos(int x, int y, int z){
|
||||||
if(x < 0 || y < 0 || z < 0) return Block::NULLBLK;
|
if(x < 0 || y < 0 || z < 0) return Block::NULLBLK;
|
||||||
|
|
|
@ -121,7 +121,9 @@ namespace debug{
|
||||||
std::any_cast<int>(parameters.at("update_chunks_bucket")));
|
std::any_cast<int>(parameters.at("update_chunks_bucket")));
|
||||||
}
|
}
|
||||||
}catch(const std::bad_any_cast& e){
|
}catch(const std::bad_any_cast& e){
|
||||||
std::cout << e.what();
|
std::cout << e.what() << std::endl;
|
||||||
|
}catch(const std::out_of_range& e){
|
||||||
|
std::cout << e.what() << std::endl;
|
||||||
}
|
}
|
||||||
|
|
||||||
ImGui::End();
|
ImGui::End();
|
||||||
|
|
|
@ -140,10 +140,11 @@ namespace renderer{
|
||||||
|
|
||||||
chunkmesher::MeshData* m;
|
chunkmesher::MeshData* m;
|
||||||
while(MeshDataQueue.try_pop(m)){
|
while(MeshDataQueue.try_pop(m)){
|
||||||
chunkmesher::sendtogpu(m);
|
//chunkmesher::sendtogpu(m);
|
||||||
chunkmesher::getMeshDataQueue().push(m);
|
chunkmesher::getMeshDataQueue().push(m);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
/*
|
||||||
for(auto& c : chunks_torender){
|
for(auto& c : chunks_torender){
|
||||||
float dist = glm::distance(c->getPosition(), cameraChunkPos);
|
float dist = glm::distance(c->getPosition(), cameraChunkPos);
|
||||||
if(dist <= static_cast<float>(RENDER_DISTANCE)){
|
if(dist <= static_cast<float>(RENDER_DISTANCE)){
|
||||||
|
@ -211,6 +212,7 @@ namespace renderer{
|
||||||
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
*/
|
||||||
|
|
||||||
total = chunks_torender.size();
|
total = chunks_torender.size();
|
||||||
debug::window::set_parameter("render_chunks_total", total);
|
debug::window::set_parameter("render_chunks_total", total);
|
||||||
|
@ -220,14 +222,14 @@ namespace renderer{
|
||||||
debug::window::set_parameter("render_chunks_deleted", (int) (render_todelete.size()));
|
debug::window::set_parameter("render_chunks_deleted", (int) (render_todelete.size()));
|
||||||
debug::window::set_parameter("render_chunks_vertices", vertices);
|
debug::window::set_parameter("render_chunks_vertices", vertices);
|
||||||
|
|
||||||
for(auto& c : render_todelete){
|
/*for(auto& c : render_todelete){
|
||||||
// we can get away with unsafe erase as access to the container is only done by this
|
// we can get away with unsafe erase as access to the container is only done by this
|
||||||
// thread
|
// thread
|
||||||
c->deleteBuffers();
|
c->deleteBuffers();
|
||||||
chunks_torender.unsafe_erase(c);
|
chunks_torender.unsafe_erase(c);
|
||||||
chunkmanager::getDeleteVector().push(c);
|
chunkmanager::getDeleteVector().push(c);
|
||||||
}
|
}
|
||||||
render_todelete.clear();
|
render_todelete.clear();*/
|
||||||
|
|
||||||
/* DISPLAY TEXTURE ON A QUAD THAT FILLS THE SCREEN */
|
/* DISPLAY TEXTURE ON A QUAD THAT FILLS THE SCREEN */
|
||||||
// Now to render the quad, with the texture on top
|
// Now to render the quad, with the texture on top
|
||||||
|
|
Loading…
Reference in New Issue