#include "physics_2d_server_wrap_mt.h" #include "os/os.h" void Physics2DServerWrapMT::thread_exit() { exit=true; } void Physics2DServerWrapMT::thread_step(float p_delta) { physics_2d_server->step(p_delta); step_sem->post(); } void Physics2DServerWrapMT::_thread_callback(void *_instance) { Physics2DServerWrapMT *vsmt = reinterpret_cast(_instance); vsmt->thread_loop(); } void Physics2DServerWrapMT::thread_loop() { server_thread=Thread::get_caller_ID(); OS::get_singleton()->make_rendering_thread(); physics_2d_server->init(); exit=false; step_thread_up=true; while(!exit) { // flush commands one by one, until exit is requested command_queue.wait_and_flush_one(); } command_queue.flush_all(); // flush all physics_2d_server->finish(); } /* EVENT QUEUING */ void Physics2DServerWrapMT::step(float p_step) { if (create_thread) { command_queue.push( this, &Physics2DServerWrapMT::thread_step,p_step); } else { command_queue.flush_all(); //flush all pending from other threads physics_2d_server->step(p_step); } } void Physics2DServerWrapMT::sync() { if (step_sem) { if (first_frame) first_frame=false; else step_sem->wait(); //must not wait if a step was not issued } physics_2d_server->sync();; } void Physics2DServerWrapMT::flush_queries(){ physics_2d_server->flush_queries(); } void Physics2DServerWrapMT::end_sync() { physics_2d_server->end_sync();; } void Physics2DServerWrapMT::init() { if (create_thread) { step_sem = Semaphore::create(); print_line("CREATING PHYSICS 2D THREAD"); //OS::get_singleton()->release_rendering_thread(); if (create_thread) { thread = Thread::create( _thread_callback, this ); print_line("STARTING PHYISICS 2D THREAD"); } while(!step_thread_up) { OS::get_singleton()->delay_usec(1000); } print_line("DONE PHYSICS 2D THREAD"); } else { physics_2d_server->init(); } } void Physics2DServerWrapMT::finish() { if (thread) { command_queue.push( this, &Physics2DServerWrapMT::thread_exit); Thread::wait_to_finish( thread ); memdelete(thread); /* shape_free_cached_ids(); area_free_cached_ids(); body_free_cached_ids(); pin_joint_free_cached_ids(); groove_joint_free_cached_ids(); damped_string_free_cached_ids(); */ thread=NULL; } else { physics_2d_server->finish(); } if (step_sem) memdelete(step_sem); } Physics2DServerWrapMT::Physics2DServerWrapMT(Physics2DServer* p_contained,bool p_create_thread) : command_queue(p_create_thread) { physics_2d_server=p_contained; create_thread=p_create_thread; thread=NULL; step_sem=NULL; step_pending=0; step_thread_up=false; alloc_mutex=Mutex::create(); shape_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); area_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); body_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); pin_joint_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); groove_joint_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); damped_spring_joint_pool_max_size=GLOBAL_DEF("core/thread_rid_pool_prealloc",20); if (!p_create_thread) { server_thread=Thread::get_caller_ID(); } else { server_thread=0; } main_thread = Thread::get_caller_ID(); first_frame=true; } Physics2DServerWrapMT::~Physics2DServerWrapMT() { memdelete(physics_2d_server); memdelete(alloc_mutex); //finish(); }