#include "zpl.h" #include "librg.h" #include "modules/general.h" #include "modules/net.h" #include "world/world.h" #include "entity_view.h" #include "packets/pkt_send_librg_update.h" typedef struct { uint8_t *data; uint32_t seed; uint32_t size; uint32_t width; uint32_t height; uint16_t block_size; uint16_t chunk_size; uint16_t chunk_amount; uint64_t tracker_update; ecs_world_t *ecs; librg_world *tracker; world_pkt_reader_proc *reader_proc; world_pkt_writer_proc *writer_proc; } world_data; static world_data world = {0}; #define WORLD_TRACKER_UPDATE_MS 10 int32_t world_gen(); entity_view world_build_entity_view(int64_t e) { ECS_IMPORT(world_ecs(), General); entity_view view = {0}; // TODO(zaklaus): branch out based on ECS tags const Position *pos = ecs_get(world_ecs(), e, Position); if (pos) { view.kind = EKIND_PLAYER; view.x = pos->x; view.y = pos->y; } const Chunk *chpos = ecs_get(world_ecs(), e, Chunk); if (chpos) { view.kind = EKIND_CHUNK; view.x = chpos->x; view.y = chpos->y; } return view; } int32_t tracker_write_create(librg_world *w, librg_event *e) { int64_t owner_id = librg_event_owner_get(w, e); int64_t entity_id = librg_event_entity_get(w, e); size_t actual_length = librg_event_size_get(w, e); char *buffer = librg_event_buffer_get(w, e); return entity_view_pack_struct(buffer, actual_length, world_build_entity_view(entity_id)); } int32_t tracker_write_remove(librg_world *w, librg_event *e) { return 0; } int32_t tracker_write_update(librg_world *w, librg_event *e) { int64_t entity_id = librg_event_entity_get(w, e); size_t actual_length = librg_event_size_get(w, e); char *buffer = librg_event_buffer_get(w, e); return entity_view_pack_struct(buffer, actual_length, world_build_entity_view(entity_id)); } void world_setup_pkt_handlers(world_pkt_reader_proc *reader_proc, world_pkt_writer_proc *writer_proc) { world.reader_proc = reader_proc; world.writer_proc = writer_proc; } int32_t world_init(int32_t seed, uint16_t block_size, uint16_t chunk_size, uint16_t chunk_amount) { if (world.data) { return 0; } world.seed = seed; world.chunk_size = chunk_size; world.chunk_amount = chunk_amount; world.width = chunk_size * chunk_amount; world.height = chunk_size * chunk_amount; world.block_size = block_size; world.size = world.width * world.height; if (world.tracker == NULL) { world.tracker = librg_world_create(); } if (world.tracker == NULL) { zpl_printf("[ERROR] An error occurred while trying to create a server world.\n"); return WORLD_ERROR_TRACKER_FAILED; } /* config our world grid */ librg_config_chunksize_set(world.tracker, block_size * chunk_size, block_size * chunk_size, 0); librg_config_chunkamount_set(world.tracker, chunk_amount, chunk_amount, 0); librg_config_chunkoffset_set(world.tracker, LIBRG_OFFSET_MID, LIBRG_OFFSET_MID, 0); librg_event_set(world.tracker, LIBRG_WRITE_CREATE, tracker_write_create); librg_event_set(world.tracker, LIBRG_WRITE_REMOVE, tracker_write_remove); librg_event_set(world.tracker, LIBRG_WRITE_UPDATE, tracker_write_update); world.data = zpl_malloc(sizeof(uint8_t)*world.size); world.tracker_update = 0; if (!world.data) { return WORLD_ERROR_OUTOFMEM; } world.ecs = ecs_init(); ecs_set_entity_range(world.ecs, 0, UINT32_MAX); ECS_IMPORT(world.ecs, General); for (int i = 0; i < chunk_amount * chunk_amount; ++i) { ecs_entity_t e = ecs_new(world.ecs, 0); Chunk *chunk = ecs_get_mut(world.ecs, e, Chunk, NULL); chunk->x = i % chunk_amount - chunk_amount/2; chunk->y = i / chunk_amount - chunk_amount/2; librg_chunk chid = librg_chunk_from_chunkpos(world.tracker, chunk->x, chunk->y, 0); librg_entity_track(world.tracker, e); librg_entity_chunk_set(world.tracker, e, chid); } zpl_printf("[INFO] Created a new server world\n"); return world_gen(); } int32_t world_destroy(void) { librg_world_destroy(world.tracker); ecs_fini(world.ecs); zpl_mfree(world.data); zpl_memset(&world, 0, sizeof(world)); zpl_printf("[INFO] World was destroyed.\n"); return WORLD_ERROR_NONE; } #define WORLD_LIBRG_BUFSIZ 8192 static void world_tracker_update(void) { if (world.tracker_update > zpl_time_rel_ms()) return; world.tracker_update = zpl_time_rel_ms() + WORLD_TRACKER_UPDATE_MS; ECS_IMPORT(world.ecs, Net); ecs_query_t *query = ecs_query_new(world.ecs, "Net.ClientInfo"); ecs_iter_t it = ecs_query_iter(query); static char buffer[WORLD_LIBRG_BUFSIZ] = {0}; while (ecs_query_next(&it)) { ClientInfo *p = ecs_column(&it, ClientInfo, 1); for (int i = 0; i < it.count; i++) { size_t datalen = WORLD_LIBRG_BUFSIZ; int32_t result = librg_world_write(world_tracker(), p[i].peer, buffer, &datalen, NULL); if (result > 0) { zpl_printf("[info] buffer size was not enough, please increase it by at least: %d\n", result); } else if (result < 0) { zpl_printf("[error] an error happened writing the world %d\n", result); } pkt_world_write(MSG_ID_LIBRG_UPDATE, pkt_send_librg_update_encode(buffer, datalen), 1, p[i].view_id, p[i].peer); } } } int32_t world_update() { ecs_progress(world.ecs, 0); world_tracker_update(); return 0; } int32_t world_read(void* data, uint32_t datalen, void *udata) { if (world.reader_proc) { return world.reader_proc(data, datalen, udata); } return -1; } int32_t world_write(pkt_header *pkt, void *udata) { if (world.writer_proc) { return world.writer_proc(pkt, udata); } return -1; } uint32_t world_buf(uint8_t const **ptr, uint32_t *width) { ZPL_ASSERT_NOT_NULL(world.data); ZPL_ASSERT_NOT_NULL(ptr); *ptr = world.data; if (width) *width = world.width; return world.size; } ecs_world_t * world_ecs() { return world.ecs; } librg_world * world_tracker() { return world.tracker; } uint16_t world_block_size(void) { return world.block_size; } uint16_t world_chunk_size(void) { return world.chunk_size; } uint16_t world_chunk_amount(void) { return world.chunk_amount; } uint16_t world_dim(void) { return world.block_size * world.chunk_size * world.chunk_amount; } #include "world_gen.c"