/*************************************************************************/ /* command_queue_mt.h */ /*************************************************************************/ /* This file is part of: */ /* GODOT ENGINE */ /* https://godotengine.org */ /*************************************************************************/ /* Copyright (c) 2007-2020 Juan Linietsky, Ariel Manzur. */ /* Copyright (c) 2014-2020 Godot Engine contributors (cf. AUTHORS.md). */ /* */ /* Permission is hereby granted, free of charge, to any person obtaining */ /* a copy of this software and associated documentation files (the */ /* "Software"), to deal in the Software without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of the Software, and to */ /* permit persons to whom the Software is furnished to do so, subject to */ /* the following conditions: */ /* */ /* The above copyright notice and this permission notice shall be */ /* included in all copies or substantial portions of the Software. */ /* */ /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */ /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */ /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/ /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */ /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */ /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */ /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /*************************************************************************/ #ifndef COMMAND_QUEUE_MT_H #define COMMAND_QUEUE_MT_H #include "os/memory.h" #include "os/mutex.h" #include "os/semaphore.h" #include "simple_type.h" #include "typedefs.h" /** @author Juan Linietsky */ class CommandQueueMT { struct SyncSemaphore { Semaphore *sem; bool in_use; }; struct CommandBase { virtual void call() = 0; virtual ~CommandBase(){}; }; template struct Command0 : public CommandBase { T *instance; M method; virtual void call() { (instance->*method)(); } }; template struct Command1 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; virtual void call() { (instance->*method)(p1); } }; template struct Command2 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; virtual void call() { (instance->*method)(p1, p2); } }; template struct Command3 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; virtual void call() { (instance->*method)(p1, p2, p3); } }; template struct Command4 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; virtual void call() { (instance->*method)(p1, p2, p3, p4); } }; template struct Command5 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5); } }; template struct Command6 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6); } }; template struct Command7 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6, p7); } }; template struct Command8 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; typename GetSimpleTypeT::type_t p8; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6, p7, p8); } }; /* comands that return */ template struct CommandRet0 : public CommandBase { T *instance; M method; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet1 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1); sync->sem->post(); sync->in_use = false; } }; template struct CommandRet2 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet3 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet4 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3, p4); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet5 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3, p4, p5); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet6 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3, p4, p5, p6); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet7 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3, p4, p5, p6, p7); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandRet8 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; typename GetSimpleTypeT::type_t p8; R *ret; SyncSemaphore *sync; virtual void call() { *ret = (instance->*method)(p1, p2, p3, p4, p5, p6, p7, p8); sync->sem->post(); sync->in_use = false; ; } }; /** commands that don't return but sync */ /* comands that return */ template struct CommandSync0 : public CommandBase { T *instance; M method; SyncSemaphore *sync; virtual void call() { (instance->*method)(); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync1 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync2 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync3 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync4 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3, p4); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync5 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync6 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync7 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6, p7); sync->sem->post(); sync->in_use = false; ; } }; template struct CommandSync8 : public CommandBase { T *instance; M method; typename GetSimpleTypeT::type_t p1; typename GetSimpleTypeT::type_t p2; typename GetSimpleTypeT::type_t p3; typename GetSimpleTypeT::type_t p4; typename GetSimpleTypeT::type_t p5; typename GetSimpleTypeT::type_t p6; typename GetSimpleTypeT::type_t p7; typename GetSimpleTypeT::type_t p8; SyncSemaphore *sync; virtual void call() { (instance->*method)(p1, p2, p3, p4, p5, p6, p7, p8); sync->sem->post(); sync->in_use = false; ; } }; /***** BASE *******/ enum { COMMAND_MEM_SIZE_KB = 256, COMMAND_MEM_SIZE = COMMAND_MEM_SIZE_KB * 1024, SYNC_SEMAPHORES = 8 }; uint8_t command_mem[COMMAND_MEM_SIZE]; uint32_t read_ptr; uint32_t write_ptr; SyncSemaphore sync_sems[SYNC_SEMAPHORES]; Mutex *mutex; Semaphore *sync; template T *allocate() { // alloc size is size+T+safeguard uint32_t alloc_size = sizeof(T) + sizeof(uint32_t); tryagain: if (write_ptr < read_ptr) { // behind read_ptr, check that there is room if ((read_ptr - write_ptr) <= alloc_size) return NULL; } else if (write_ptr >= read_ptr) { // ahead of read_ptr, check that there is room if ((COMMAND_MEM_SIZE - write_ptr) < alloc_size + 4) { // no room at the end, wrap down; if (read_ptr == 0) // dont want write_ptr to become read_ptr return NULL; // if this happens, it's a bug ERR_FAIL_COND_V((COMMAND_MEM_SIZE - write_ptr) < sizeof(uint32_t), NULL); // zero means, wrap to begining uint32_t *p = (uint32_t *)&command_mem[write_ptr]; *p = 0; write_ptr = 0; goto tryagain; } } // allocate the size uint32_t *p = (uint32_t *)&command_mem[write_ptr]; *p = sizeof(T); write_ptr += sizeof(uint32_t); // allocate the command T *cmd = memnew_placement(&command_mem[write_ptr], T); write_ptr += sizeof(T); return cmd; } template T *allocate_and_lock() { lock(); T *ret; while ((ret = allocate()) == NULL) { unlock(); // sleep a little until fetch happened and some room is made wait_for_flush(); lock(); } return ret; } bool flush_one() { tryagain: // tried to read an empty queue if (read_ptr == write_ptr) return false; uint32_t size = *(uint32_t *)(&command_mem[read_ptr]); if (size == 0) { //end of ringbuffer, wrap read_ptr = 0; goto tryagain; } read_ptr += sizeof(uint32_t); CommandBase *cmd = reinterpret_cast(&command_mem[read_ptr]); cmd->call(); cmd->~CommandBase(); read_ptr += size; return true; } void lock(); void unlock(); void wait_for_flush(); SyncSemaphore *_alloc_sync_sem(); public: /* NORMAL PUSH COMMANDS */ template void push(T *p_instance, M p_method) { Command0 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1) { Command1 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2) { Command2 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3) { Command3 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4) { Command4 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5) { Command5 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6) { Command6 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7) { Command7 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; unlock(); if (sync) sync->post(); } template void push(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8) { Command8 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; cmd->p8 = p8; unlock(); if (sync) sync->post(); } /*** PUSH AND RET COMMANDS ***/ template void push_and_ret(T *p_instance, M p_method, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet0 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet1 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet2 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet3 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet4 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet5 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet6 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet7 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_ret(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8, R *r_ret) { SyncSemaphore *ss = _alloc_sync_sem(); CommandRet8 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; cmd->p8 = p8; cmd->ret = r_ret; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync0 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync1 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync2 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync3 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync4 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync5 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync6 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync7 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } template void push_and_sync(T *p_instance, M p_method, P1 p1, P2 p2, P3 p3, P4 p4, P5 p5, P6 p6, P7 p7, P8 p8) { SyncSemaphore *ss = _alloc_sync_sem(); CommandSync8 *cmd = allocate_and_lock >(); cmd->instance = p_instance; cmd->method = p_method; cmd->p1 = p1; cmd->p2 = p2; cmd->p3 = p3; cmd->p4 = p4; cmd->p5 = p5; cmd->p6 = p6; cmd->p7 = p7; cmd->p8 = p8; cmd->sync = ss; unlock(); if (sync) sync->post(); ss->sem->wait(); } void wait_and_flush_one() { ERR_FAIL_COND(!sync); sync->wait(); lock(); flush_one(); unlock(); } void flush_all() { //ERR_FAIL_COND(sync); lock(); while (true) { bool exit = !flush_one(); if (exit) break; } unlock(); } CommandQueueMT(bool p_sync); ~CommandQueueMT(); }; #endif